ES_0044 - Helical Springs for R stock

Functional Powder CoatingsProduct Datasheet20, Culvert Street T+1 855-294-8934Nashville, TN 37210F+1 615-564-4181USAResicoat ®R4-ESfor Electrostatic Spray Application on Preheated Surfaces Code: HJF42RProduct DescriptionResicoat ® R4 is a high quality thermosetting epoxy powder coating for the corrosion protection of valves and fittings, manufactured from cast iron or steel. The powder coating is available to be applied in one layer on a preheated surface by electrostatic spray application. Typical film thickness achieved is in the range of 250 – 500 µm. The resultant thermoset epoxy has a high mechanical resistance with excellent electrical insulation properties. Drinking water approvals are available to confirm the coatings suitability, as a hygienic and environmental friendly coating. The outstanding adhesion of Resicoat ® R4epoxy powders to the metal substrate provides long term protection of the coated component. It ensures a reliable conservation to the function and value of the parts for the common water and gasdistribution network. The applicator of Resicoat ®R4 benefits from a modern and environmentallyfriendly process. It is possible to overcoat Resicoat ®R4 with polyester powder and liquid coatings to achieve UV protection.Typical valueMethod Powder PropertiesBinder System Epoxy resinDensity1.45 – 1.55 g/cm³ASTM D5965Gel time at 392° F (200° C )25 – 40 sec.ASTM D4217Particle size distribution D10 = 10 – 15 µm D90 = 135 – 160 µm Malvern ISO 8130-1Storage stability 6 months at ≤ 74 °F (23 °C)Safety precautionsSee Material Safety Datasheet (MSDS)Application DataPreheating temperature object 392 – 428 °F (200 – 220 °C) object temperaturePost cure conditions objectThe coating is self curing, if the wall thickness of the steel/cast iron is greater than 8 mm. If the wall thickness of the steel/cast iron is less than 8 mm, additional curing of 3 to 8 minutes at 392 °F (200 °C) object temperature is required.1. Pre-cleaning The surface must be free of oil, grease, salt, and other impurities.2. BlastingMolding sand, rust and sharp edges must be removed with angular steel grit. The graphite from the cast iron must beremoved from the blasting material according NACE No.2/ SSPC-10/Sa 2.5. Recommended anchor profile of ≥60 µm should be stored max. 4 hours before pre-heating (dust-free and dry).3. Pre-heating This form of heating produces a uniform, defined temperature in the component. Any oxidation should be avoided.4. Coating applicationImmediately after preheating, the coating process starts without loosing any object temperature. The coating is done in the shortest possible time in a single pass with no interruptionFunctional Powder Coatings20, Culvert Street T+1 855-294-8934Nashville, TN 37210F+1 615-564-4181USATypical valueMethodCoating Process5. Coating cureCuring is achieved by the heat contained in the object. If the heating capacity of the work piece is sufficient. To confirm fully curing, MIBK is dropped for 30 sec. on the film surface with no visible change.Material PropertiesColorblueRecommended film thickness 10 – 14 mils (250 – 350 µm)Flowsmooth Gloss at 90° angle 70 – 90 units DIN 67530Cross cut test Gt 0DIN EN ISO 2409Impact resistance> 5 Joule > 2.26 Joule > 18 JouleDIN 30677-2ASTM D279420 inchpoundASTM G14 modified1/8 in (3.2 mm) steel plate Abrasion resistance < 40 mg ASTM D4060CS-17, 1000 g, 1000 cycles Dielectric strength≥ 30 kV/mm IEC 60243-1Volume resistivity (DC voltage) 1.1 x 1015ASTM D257Elongation> 5 %DIN 30671Indentation resistance 48 h, 158 °F (70 °C)24 h, 140 °F (60 °C)< 30 %< 10 %DIN 30677-2/DIN EN 14901ASTM G17Compressive strength > 100 MPa ASTM D695Shear adhesion> 35 MPa ASTM D1002Heat aging in air (90 d), water fulfilled DIN EN 14901Thermal stability under heat aging pass AS/NZS 4158:2003Weathering (Xenon test), 100 d pass ASTM D2596-99HardnessF Pencil Strain polarization pass WIS 4-52-01Cathodic disbonding 30 d, 74 °F (23 °C)≤ 10 mm DIN 30677-2, GSK Hot water immersion 90 d, 158 °F (70 °C)pass AWWA C550-05Adhesion> 20 MPa ASTM D4541Adhesion after 7 d,194 °F (90°C)water≥ 16 MPaISO 4624, GSK Tensile strength approx. 500 kg/cm³ASTM D2370Penetration< 5 %ASTM G17Functional Powder Coatings20, Culvert Street T+1 855-294-8934Nashville, TN 37210F+1 615-564-4181USATypical valueMethodMaterial PropertiesDisinfectant resistanceaccording DVGW work sheet W 291(chlorine dioxide, sodium hypochlorite)no change of surface,no chalkingafter 10 test stages à 15 h The following migration test with demineralised water showed no defects of the film. The concentration of the examined parameters in the tested water were below the limits of the epoxy guideline for ancillaries for pipes DN > 300 mm (in main trunks).Water condensation test (Cleveland test), 21 d no changeASTM D4585Salt spray resistance, 2000 h no blistering, no loss of adhesionBS 3900:F4Salt spray test, 4000 hno under-rusting on the cut DIN EN ISO 9227(steel substrate)Water absorption, 100 d, 74 °F (23 °C)pass AS/NZS 3862Chemical resistance (pH 3–13, 23° C)fulfilledEN 598Conformities ·AWWA C116·AWWA C550-05·EN 14901·ISO 12944-2, table 1(standard does not include powder coating systems)It is assumed that Resicoat ® R4 is suitable to meet the high atmospheric corrosivity category C4 (typically in industrial areas and coastal areas with moderate salinity) and the very high atmospheric- corrosivity -categories C5-I (industrial) and C5-M (marine) if applied as a holiday-free coating at a film thickness> 400 µm. A sufficient film thickness is highly required to ensure good edge coverage. For gloss and color stability a UV-resistant polyester topcoat has to be applied.Drinking Water ApprovalsUS: ANSI/NSF 61 Drinking Water System Components – Health Effects, NSF DE: UBA-Coatings Guideline, Approval no.: C-138801-06, Hygiene InstitutDE: DVGW directive work sheet W 270, Approval no. W-211795-11, Hygiene Institut UK: BS 6920, Approval No. 1112500, WRASDate of issue:July 10, 2015Authorized by:GK Revision No.:3Disclaimer: This Product Data Sheet is based on the present state of our knowledge and on current laws. The data referring to Powder Properties, Application Data and Physical Tests is based on lab based samples. Factors such as quality or condition of the substrate may have an effect on the use and application of the product. It remains the responsibility of the user to test thoroughly if the product is applicable for the intended use. The use of the product beyond our recommendation releases us from our responsibility, unless we have recommended the specific use in writing. It is always the responsibility of the user to take all necessary steps to fulfil the demands set out in the local rules and legislation. We are not liable for any application-technological advice. The Product Data Sheet shall be updated from time to time. Please ensure you have the latest version before using the product. All products and Product Data Sheets are subject to our standard terms and conditions of sale (GCS). You can receive the latest copy of GCS via internet or our post address. Brand names mentioned in this Product Data Sheet are trademarks of or are licensed to the AkzoNobel group.Resistance against chemical substances of Resicoat ®R4 at room temperature20, Culvert Street T+1 855-294-8934Nashville, TN 37210F+1 615-564-4181USA Chemical resistanceAugust 01, 2014Page 1 of 3Acetic acid 10 % 2 years no change Ammonia 10 % 2 years no change Ammonia 36 % 1.5 years no change Antifrogen L 50 % 1 year no change Antifrogen N 50 %1 year no change Benzol 1 month no change Bore oil 1 year no change Butanol6 months no change Carbon tetra chloride 1 yearno change Caustic soda solution 10 % 2 years no change Caustic soda solution50 %2 years no change Chlorine cleanser and disinfectant 1.5 years no change Citric acid2 years no change Deicer Safeway KF HOT 1 year no change Deicer Safeway SF (solid) 1 year no change Deicer Safewing MP II 1951 1 yearno change Dichromatic potassium 10 % 1 year no change Diesel2 years no change Engine oil SAE 20 1 year no change Ethanol 1 year no change Ethyleneglycole 1 yearno change Formaldehyde 37 % 6 months no change Formic acid 5 % 2 years no change Formic acid 10 %1.5 years no change Glycerol 1 year no change Glysantin 1 yearno change Hydrochloric acid concentrated1 week no change Hydrochloric acid 10 %2 years no change Hydrochloric acid 25 % 1.5 yearsno change Hydrofluoric acid 1 % 1 day no change Hydrogen peroxide 3 % 1 year no change Hydrogen peroxide10 %1 yearfadedLactic acid10 % 1 week no changeMethanol 1 week no changeMethyl tert-butyl ether (MTBE)100% 6 months softeningNitric acid10 % 1.5 years no changeNitric acid25 % 1 year no changeOxalic acid 5 % 6 months no changePalm oil at 90° C7 days no changePetrol 2 years no changePetroleum 1 year no changePhosphoric acid10 % 2 years no changePhosphoric acid50 % 2 years no changePotassium hydroxide10 % 1 year no changePotassium hydroxide25 % 1 year no changePotassium hydroxide50 % 1 year no changePropanol 1 year no changeSea water 2 years no changeSodium acetate10 % 1 year no changeSodium carbonate20 % 1 year no changeSodium hypochlorite (15 % Cl2)10 weeks no changeSodium chloride 2 % 1 year no changeSodium chloride20 % 1 year no changeSodium formiate10 % 1 year no changeSuds 1 % 1 year no changeSulphuric acid 2 % 2 years no changeSulphuric acid20 % 2 years no changeSulphuric acid50 % 2 years no changeTartaric acid 5 % 1 year no changeToluol 1 year no changeTurpentine oil 1 year no changeUrea10 % 1 year no changeUrine 1 year no changeXylol 1 year no change 20, Culvert Street T+1 855-294-8934Nashville, TN 37210F+1 615-564-4181USA Chemical resistance August 01, 2014Page 2 of 3Our printed literature and technical information Sheets as well as our advisory services are offered to facilitate andsupport decision-making processes. All specifications provided reflect the state of our knowledge at the time of print. Anytechnical data and measured values supplied have been tested for compliance with current applicable standards, ifavailable. The information provided is not legally binding upon the party supplying such information.20, Culvert Street T+1 855-294-8934Nashville, TN 37210F+1 615-564-4181USA Chemical resistance August 01, 2014Page 3 of 3。

四乙酸乙二胺溶液英语Ethylenediamine Tetraacetic Acid (EDTA) Solution.Ethylenediamine Tetraacetic Acid (EDTA) solution is a chemically important compound that finds widespread applications in various fields of science and technology.It is a white, water-soluble powder that exhibits exceptional chelating properties, making it an indispensable reagent in numerous laboratory experiments and industrial processes.The EDTA molecule consists of a central ethylenediamine core linked to four acetic acid groups through amide bonds. This unique structure enables EDTA to form strong bonds with metal ions, effectively removing them from solutions and stabilizing them in a chelated state. This chelating ability is what gives EDTA its wide range of applications.One of the primary uses of EDTA solution is in water treatment. It is used to remove calcium and magnesium ionsfrom hard water, preventing scale formation and corrosionin piping systems. By chelating these ions, EDTA prevents them from reacting with other compounds, thus extending the lifespan of piping systems and ensuring efficient water flow.Another important application of EDTA solution is inthe field of biochemistry and molecular biology. It is widely used as a chelating agent in biological buffers and media, helping to maintain the stability of biological samples and enabling accurate measurements in laboratory experiments. EDTA is also employed in DNA extraction procedures, where it chelates with calcium and magnesium ions present in the sample, ensuring the efficient releaseof DNA from cells and tissues.In addition to its use in water treatment and biochemistry, EDTA solution also finds applications in the fields of metallurgy, food processing, and pharmaceutical manufacturing. In metallurgy, EDTA is used as a complexing agent in metal finishing processes, removing impurities and improving the surface quality of metals. In food processing,it is employed as a preservative and stabilizer, enhancing the shelf life and quality of food products. In the pharmaceutical industry, EDTA is used in the formulation of injectable drugs and in the preparation of sterile solutions, ensuring their stability and safety for human use.The preparation of EDTA solution typically involves dissolving the EDTA powder in water. The resulting solution can be adjusted to different concentrations depending on the specific application. It is important to note that EDTA solutions should be stored in a cool, dark place to prevent degradation and maintain their effectiveness.In conclusion, Ethylenediamine Tetraacetic Acid (EDTA) solution is a chemically important compound with a wide range of applications in various fields. Its chelating properties make it an indispensable reagent in water treatment, biochemistry, metallurgy, food processing, and pharmaceutical manufacturing. The preparation and storage of EDTA solutions require care and attention to ensuretheir stability and effectiveness. With its diverseapplications and valuable properties, EDTA solution remains a crucial component in many scientific and industrial processes.。

Ordering InformationBOLD ITEMS ARE MOST POPULAR.AutomaticDrainManualDrainPF504 Series1/4 Inch PortsCatalog 0700P-EMiniature PF504 SeriesPF504 FilterDimensionsA1.56(40)C0.31(8)D3.69(94)E4.00(102)F1.58(40)inches(mm)Standard part numbers shown bold.For other models refer to ordering information below.SCFM = Standard cubic feet per minute at 90 PSIG inlet and 5 PSIGpressure drop.PortSizeNPT BSPPManual Twist Drain Manual Twist Drain1/4"PF504-02DHSS PF504G02DHSSFeatures• Stainless steel construction handlesmost corrosive environments.• Fluorocarbon seals standard.• Meets NACE specificationsMR-01-75/ISO 15156.• 1/8" female threaded drain.• High Flow: 1/4" - 23 SCFM§Port Type- NPTG BSPPPort Size02 1/4 InchBowlD Metal BowlwithoutSight GaugeElementH 20 MicronG 5 MicronMaterialSS Stainless SteelPF504 - 02 D H SSOptionsBlank ManualTwist DrainR AutomaticPulse DrainFlow - dm /sP r e s s u r e D r o p - b a r3nPrimary Pressure - PSIG1.7 bar3.4 bar 5.2 bar 6.9 bar Primary Pressure - barPF504 Series Air Line FiltersCatalog 0700P-E Technical Specifications – PF504PF504 Filter Kits & AccessoriesDrain Kits –Automatic Pulse Drain ................................................RK504SY -SS Manual Twist Drain–Small (Old) ..........................................................SA600Y7-1SS Large (New) ...............................................................SAP05481Filter Element Kits –Particulate (5 Micron) .......................................................EK504VY Particulate (20 Micron) .......................................................EK504Y Pipe Nipple –1/4" 316 Stainless Steel ................................................616Y28-SSSpecificationsBowl Capacity ..................................................................1.0 Ounces Filter Rating ........................................................................20 Micron Sump Capacity ..................................................................0.4 Ounce Port Threads ..........................................................................1/4 InchPressure & Temperature Ratings –Manual T wist Drain ............................0 to 300 PSIG (0 to 20.7 bar) 0°F to 180°F (-18°C to 82°C) Auto Pulse Drain ..................................10 to 175 PSIG (0 to 12 bar) 32°F to 150°F (0°C to 66°C)Note: Air must be dry enough to avoid ice formation attemperatures below 32°F (0°C)Weight........................................................................0.6 lb. (0.27 kg)Materials of ConstructionBody .....................................................................316 Stainless Steel Bowls ...................................................................316 Stainless Steel Deflector ..................................................................................Acetal Drain ....................................................................316 Stainless Steel Element Holder .......................................................................Acetal Filter Element ................................................................Polyethylene Seals .............................................................................FluorocarbonOperationFirst Stage Filtration:Air enters at inlet port and flows through deflector plate (A) which causes a swirling action. Liquids and coarse particles are forced to the bowl interior wall (B) by the centrifugalaction of the swirling air. They are then carried down the bowl wall by the force of gravity. The baffle (D) separates the lower portion of the bowl into a “quiet zone” (E) where the removed liquid and particles collect, unaffected by the swirling air, and are therefore not reentrained into the flowing air.Second Stage Filtration:After liquids and large particles are removed in the first stages of filtration, the air flows through element (C) where smaller particles are filtered out. The filtered air then passes downstream. Collected liquids and particles in the “quiet zone” (E) should be drained before their level reaches a height where they would be reentrained in the flowing air. This can be accomplished by unscrewing the drain valve (F) slightly until the liquid begins to drain.Technical InformationE F(Revised 11-21-12)。

•182.广 i 血病•淋巴墙 202 丨’中• 3 /]第 30 役第 3 期 Jmirnal »f 【.《nikemia & I.vmphoma, Mar(、h 202 丨，V 〇l. 30,、•(>• 3梗死诊断依赖于病史、临床症状、体征和M R 丨检查，其中M K 丨检 查在骨梗死诊断中有发现¥•、准确、可直接和多层次反映骨梗 死范围及部位的优势临床中对于有骨梗死高危因素并出现 不能解释的骨痛患者，建议尽早行M K I 检查：利益冲突所有作者均声明不存在利益冲突参考文献[1 ]高文琴，张改连，张莉芸.系统性红斑狼疮并发广泛性骨梗死一例[J ].中华风湿病学杂志，2015,19(8):552-554. D 01:10.3760/ rma.j.issn. 1007-7480.2015.08.012.(iao WQ, Zhang C l., Zhang LY. A rase of systemic lupus erythematosus romplirated with extensive hone infarction [j ]. Chin J Rheumatol, 2015, 19(8)： 552-554. DOI ： 10.3760/rma.j.issn. 1007- 7480.2015.08.012.;2Jones LC , Hungerforrl I)S. Osteonecrosis ： etiology, diagnosis, and treatment | J ]. Curr Opin Rheumatol, 2004, 16(4) ： 443-449. 1)01： 10.1097/01 .moo.0000127829.34643.fd.[3」Koo KH , Kim R , Kim Y S, et al. Risk period for developingosteonecrosis of the femoral head in patients on steroid treatment, J •Clin Rheumatol, 2002, 21 (4) ： 299-303. DOI ： 10.1007/s 1006702 00078.Zhu ZA . ^ an MN. Etiology and pathogenesis of osteonecrosis of the femoral head in aflulls J . (!!hin J Orthop. 2010, 30( 1 ) ： 6-9. DOI ： 10.3760/cma.j.issn.0253-2352.2010.01.003.i 5 ： Ghosh J , Manjunatha YC, Thulkar S , et al. Avascular necrosis offemoral head in childhood acute myeloid leukemia ： complication of chemolherapy without steroids i JPediatr Blood Cancer, 2008, 51(2)： 308-309. DOI ： 10.1002/phr.21559.6 ^ Asano T , Takahashi KA, F^ujioka M, et al. ABCB1 (3435T andG2677T/A polymorphism derreaseci the risk for steroid - induced osteonecrosis of the femoral head after kiflney transplantation J . Pharmar 〇genetics,2003,13( 11 ) ：675-682. 1)01:10.1097/00008571- 200311000-00003.i 7 ] Gluerk CJ , Freiberg RA , Wang P. Heritable fhromhophilia-hypofihrinolvsis and osteonecrosis of the femoral head !J |. Clin Orthop Helat R e s, 2008,466( 5 )： 1034-1040. DOI ： 10.1007/si 1999- 008-0148-0.[8 ] Schulte (^M , FJeelen DW. Bone loss following hematopoietir stemfell transplantation ： a long-term follow - up l J _ • Blood, 2004, 103(10)： 3635-3643. DOI ： 10.1182/blo 〇d-2003-09-3081.| 9 ] Fink JC , Ieisenring WM, Sullivan KM, el al. Avascular necrosisfollowing hone marrow transplantation ： a case-control study[ J]- Bone,[4 ]朱振安，严孟宁.成人股骨头坏死的病因和发病机制[J .中肀骨1"8,22⑴：67-7L科杂志，20丨0, 30 (丨）：6-9.丨)()丨：丨().3760/rma. j. issn.0253 - 2352. (收稿 H 期：2020-05-12)2010.01.003.(本文编辑：郎华校对：陈晶)伊布替尼治疗弥漫大B 细胞淋巴瘤诱发噬血细胞综合征 一例并文献复习向国强'姜利军2隗佳2黄亮21湖北省恩施土家族苗族自治州中心医院血液内科4450(H );:华中科技大学同济医学院 附属同济医院血液内科，武汉43003U 通信作者：姜利军，Email : 278308418@qti •com扫码阅读电子版【摘要】目的探讨伊布替尼治疗B 细胞恶性肿瘤诱发噬血细胞综合征（H P S )的临床特征，提高 对伊布替尼诱发H P S 的认识方法回顾性分析1例弥漫大B 细胞淋巴瘤（D L B C L )患者经伊布替尼治 疗后诱发H P S 的诊疗经过，并进行文献复习结果该患者接受伊布替尼治疗后第8天诱发H P S ，病情 迅速恶化结论伊布替尼不能精准抑制布鲁顿酪氨酸激酶抑制剂，存在脱靶效应，可抑制T 细胞激 酶，具有潜在有害性突变的D L B C L 患者在接受伊布替尼治疗时应意识到诱发H P S 这一潜在并发症【关键词】伊布替尼；淋巴瘤，大B 细胞，弥漫性；噬血细胞综合征 基金项目：湖北省ft 然科学基金（2019C F B 656)D O I ： 10.3760/cma.j.rnl 15356-20200913-00224Ibrutinib in treatment of diffuse large B-cell lymphoma-induced hemophagocytic syndrome: report of one case and review of literatureXiang Guoqiang1, Jian g Lijun'. W ei Jin',Huang Liang2I’ 1血病•淋巴瘤2021 年 3 月第 30 卷第 3 期Journal of Lpukemia & Lym丨)homa，Marrh 2021，Vol. 30, No. 3•183-'Department of Hematology, the Central Hospital o f Enshi Tujia and Miao Autonomous Prefecture, Enshi445000, China: 'Department of Hematology, Tongji Hospital, Tongji Medical College of Huazhong University ofScience & Technology. Wuhan 430030, ChinaCorresponding author: Jian g Lijun, Email:****************Fund program:Natural Science Foundation of H u b e i Prov ince (2019C F B656)D O I： 10.3760/rma.j.rnl 15356-20200913-00224噬血细胞性淋巴组织细胞增多症（H L H)又称噬血细胞综合征(H P S)，是一种由遗传性或获得性免疫功能异常导致的以病理性炎症反应为主要特征的临床综合征。

•E100 Curcumin•E101 (i) Riboflavin (ii) Riboflavin-5'-phosphate•E102 Tartrazine•E104 Quinoline Yellow•E110 Sunset Yellow FCF, Orange Yellow S•E120 Cochineal, Carminic acid, Carmines•E122 Azorubine, Carmoisine•E123 Amaranth•E124 Ponceau 4R, Cochineal Red A•E127 Erythrosine•E128 Red 2G•E129 Allura Red AC•E131 Patent Blue V•E132 Indigotine, Indigo carmine•E133 Brilliant Blue FCF•E140 Chlorophylis and Chlorophyllins: (i) Chlorophylls (ii) Chlorophyllins•E141 Copper complexes of chlorophylls and chlorophyllins (i) Copper complexes of chlorophylls (ii) Copper complexes of chlorophyllins •E142 Greens S•E150a Plain caramel•E150b Caustic sulphite caramel•E150c Ammonia caramel•E150d Sulphite ammonia caramel•E151 Brilliant Black BN, Black PN•E153 Vegetable carbon•E154 Brown FK•E155 Brown HT•E160a Carotenes: (i) Mixed carotenes (ii) Beta-carotene•E160b Annatto, bixin, norbixin•E160c Paprika extract, capsanthin, capsorubin•E160d Lycopene•E160e Beta-apo-8'-carotenal (C 30)•E160f Ethyl ester of beta-apo-8'-carotenic acid (C 30)•E161b Lutein•E161g Canthaxanthin•E162 Beetroot Red, betanin•E163 Anthocyanins•E170 Calcium carbonates•E171 Titanium dioxide•E172 Iron oxides and hydroxides•E173 Aluminium•E174 Silver•E175 Gold•E180 Latolrubine BK•E200 Sorbic acid•E202 Potassium sorbate•E203 Calcium sorbate•E210 Benzoic acid•E211 Sodium benzoate•E212 Potassium benzoate•E213 Calcium benzoate•E214 Ethyl p-hydroxybenzoate•E215 Sodium ethyl p-hydroxybenzoate•E216 Propyl p-hydroxybenzoate•E217 Sodium propyl p-hydroxybenzoate•E218 Methyl p-hydroxybenzoate•E219 Sodium methyl p-hydroxybenzoate•E220 Sulphur dioxide•E221 Sodium sulphite•E222 Sodium hydrogen sulphite•E223 Sodium metabisulphite•E224 Potassium metabisulphite•E226 Calcium sulphite•E227 Calcium hydrogen sulphite•E228 Potassium hydrogen sulphite•E230 Biphenyl, diphenyl•E231 Orthophenyl phenol•E232 Sodium orthophenyl phenol•[E233 Thiabendazole] - Item deleted by Directive 98/72/EC•E234 Nisin•E235 Natamycin•E239 Hexamethylene tetramine•E242 Dimethyl dicarbonate•E249 Potassium nitrite•E250 Sodium nitrite•E251 Sodium nitrate•E252 Potassium nitrate•E260 Acetic acid•E261 Potassium acetate•E262 Sodium acetates (i) Sodium acetate (ii) Sodium hydrogen acetate (sodium diacetate)•E263 Calcium acetate•E270 Lactic acid•E280 Propionic acid•E281 Sodium propionate•E282 Calcium propionate•E283 Potassium propionate•E284 Boric acid•E285 Sodium tetraborate (borax)•E290 Carbon dioxide•E296 Malic acid•E297 Fumaric acid•E300 Ascorbic acid•E301 Sodium ascorbate•E302 Calcium ascorbate•E304 Fatty acid esters of ascorbic acid (i) Ascorbyl palmitate (ii) Ascorbyl stearate•E306 Tocopherol-rich extract•E307 Alpha-tocopherol•E308 Gamma-tocopherol•E309 Delta-tocopherol•E310 Propyl gallate•E311 Octyl gallate•E312 Dodecyl gallate•E315 Erythorbic acid•E316 Sodium erythorbate•E320 Butylated hydroxyanisole (BHA)•E321 Butylated hydroxytoluene (BHT)•E322 Lecithins•E325 Sodium lactate•E326 Potassium lactate•E327 Calcium lactate•E330 Citric acid•E331 Sodium citrates (i) Monosodium citrate (ii) Disodium citrate (iii) Trisodium citrate•E332 Potassium citrates (i) Monopotassium citrate (ii) Tripotassium citrate•E333 Calcium citrates (i) Monocalcium citrate (ii) Dicalcium citrate (iii) Tricalcium citrate•E334 Tartaric acid (L(+)-)•E335 Sodium tartrates (i) Monosodium tartrate (ii) Disodium tartrate•E336 Potassium tartrates (i) Monopotassium tartrate (ii) Dipotassium tartrate•E337 Sodium potassium tartrate•E338 Phosphoric acid•E339 Sodium phosphates (i) Monosodium phosphate (ii) Disodium phosphate (iii) Trisodium phosphate•E340 Potassium phosphates (i) Monopotassium phosphate (ii) Dipotassium phosphate (iii) Tripotassium phosphate•E341 Calcium phosphates (i) Monocalcium phosphate (ii) Dicalcium phosphate (iii) Tricalcium phosphate•E343 Magnesium phosphates (i) monomagnesium phosphate (ii) Dimagnesium phosphate [Under discussion and may be included in a future amendment to the Directive on miscellaneous additives]•E350 Sodium malates (i) Sodium malate (ii) Sodium hydrogen malate •E351 Potassium malate•E352 Calcium malates (i) Calcium malate (ii) Calcium hydrogen malate•E353 Metatartaric acid•E354 Calcium tartrate•E355 Adipic acid•E356 Sodium adipate•E357 Potassium adipate•E363 Succinic acid•E380 Triammonium citrate•E385 Calcium disodium ethylene diamine tetra-acetate (Calcium disodium EDTA)•E400 Alginic acid•E401 Sodium alginate•E402 Potassium alginate•E403 Ammonium alginate•E404 Calcium alginate•E405 Propan-1,2-diol alginate•E406 Agar•E407 Carrageenan•E407a Processed eucheuma seaweed [Added in December 1996 by Directive 96/83/EC]•E410 Locust bean gum•E412 Guar gum•E413 Tragacanth•E414 Acacia gum (gum arabic)•E415 Xanthan gum•E416 Karaya gum•E417 Tara gum•E418 Gellan gum•E420 Sorbitol (i) Sorbitol (ii) Sorbitol syrup•E421 Mannitol•E422 Glycerol•E425 Konjac (i) Konjac gum (ii) Konjac glucomannane[Added in October 1998 by Directive 98/72/EC]•E426 Soybean hemicellulose [Listed in proposed amendment in COM(2004)650 published October 2004]•E431 Polyoxyethylene (40) stearate•E432 Polyoxyethylene sorbitan monolaurate (polysorbate 20)•E433 Polyoxyethylene sorbitan monooleate (polysorbate 80)•E434 Polyoxyethylene sorbitan monopalmitate (polysorbate 40) •E435 Polyoxyethylene sorbitan monostearate (polysorbate 60) •E436 Polyoxyethylene sorbitan tristearate (polysorbate 65)•E440 Pectins (i) pectin (ii) amidated pectin•E442 Ammonium phosphatides•E444 Sucrose acetate isobutyrate•E445 Glycerol esters of wood rosins•E450 Diphosphates: (i) Disodium diphosphate (Disodium dihydrogen diphosphate, Disodium dihydrogen pyrophosphate, Sodium acidpyrophosphate, Disodium pyrophosphate); (ii) Trisodiumdiphosphate (Acid trisodium pyrophosphate, Trisodium monohydrogen diphosphate); (iii) Tetrasodium diphosphate (Tetrasodiumpyrophosphate, Sodium pyrophosphate); (iv) Dipotassiumdiphosphate (v) Tetrapotassium diphosphate (Potassiumpyrophosphate, Tetrapotassium pyrophosphate); (vi) Dicalcium diphosphate (Calcium pyrophosphate); (vii) Calcium dihydrogen diphosphate (Acid calcium pyrophosphate, Monocalcium dihydrogen pyrophosphate)•E451 Triphosphates: (i) Pentasodium triphosphate (pentasodium tripolyphosphate, sodium tripolyphosphate); (ii) Pentapotassium triphosphate (Pentapotassium tripolyphosphate, Potassiumtriphosphate, Potassium tripolyphosphate)•E452 Polyphosphates: (i) Sodium polyphosphates (Sodium hexametaphosphate, Sodium tetrapolyphosphate, Graham's salt, Sodium polyphosphates, glassy, Sodium polymetaphosphate, Sodium metaphosphate, Insoluble sodium metaphosphate, Maddrell's salt, Insoluble sodium polyphosphate, IMP); (ii) Potassiumpolyphosphates (Potassium metaphosphate, Potassiumpolymetaphosphate, Kurrol salt); (iii) Sodium calciumpolyphosphate (Sodium calcium polyphosphate, glassy); (iv) Calcium polyphophates (Calcium metaphosphate, Calcium polymetaphosphate)•E459 Beta-cyclodextrine [Added in October 1998 by Directive 98/72/EC]•E460 Cellulose (i) Microcrystalline cellulose (ii) Powdered cellulose•E461 Methyl cellulose•E462 Ethyl cellulose [Listed in proposed amendment in COM(2004)650 published October 2004]•E463 Hydroxypropyl cellulose•E464 Hydroxypropyl methyl cellulose•E465 Ethyl methyl cellulose•E466 Carboxy methyl cellulose, Sodium carboxy methyl cellulose•E467 Ethyl hydroxyethyl cellulose [Number had been allocated in a proposed amendment to Directive 95/2 circulated in August 1999. However, it was not accepted and further evaluation was requested]•E468 Crosslinked sodium carboxymethyl cellulose [Added in October 1998 by Directive 98/72/EC]•E469 Enzymically hydrolysed carboxy methyl cellulose[Added in October 1998 by Directive 98/72/EC]•E470a Sodium, potassium and calcium salts of fatty acids•E470b Magnesium salts of fatty acids•E471 Mono- and diglycerides of fatty acids•E472a Acetic acid esters of mono- and diglycerides of fatty acids •E472b Lactic acid esters of mono- and diglycerides of fatty acids •E472c Citric acid esters of mono- and diglycerides of fatty acids •E472d Tartaric acid esters of mono- and diglycerides of fatty acids •E472e Mono- and diacetyl tartaric acid esters of mono- and diglycerides of fatty acids•E472f Mixed acetic and tartaric acid esters of mono- and diglycerides of fatty acids•E473 Sucrose esters of fatty acids•E474 Sucroglycerides•E475 Polyglycerol esters of fatty acids•E476 Polyglycerol polyricinoleate•E477 Propane-1,2-diol esters of fatty acids•E479b Thermally oxidized soya bean oil interacted with mono- and diglycerides of fatty acids•E481 Sodium stearoyl-2-lactylate•E482 Calcium stearoyl-2-lactylate•E483 Stearyl tartrate•E491 Sorbitan monostearate•E492 Sorbitan tristearate•E493 Sorbitan monolaurate•E494 Sorbitan monooleate•E495 Sorbitan monopalmitate•E500 Sodium carbonates (i) Sodium carbonate (ii) Sodium hydrogen carbonate (iii) Sodium sesquicarbonate•E501 Potassium carbonates (i) Potassium carbonate (ii) Potassium hydrogen carbonate•E503 Ammonium carbonates (i) Ammonium carbonate (ii) Ammonium hydrogen carbonate•E504 Magnesium carbonates (i) Magnesium carbonate (ii) Magnesium hydroxide carbonate (syn. Magnesium hydrogen carbonate)•E507 Hydrochloric acid•E508 Potassium chloride•E509 Calcium chloride•E511 Magnesium chloride•E512 Stannous chloride•E513 Sulphuric acid•E514 Sodium sulphates (i) Sodium sulphate (ii) Sodium hydrogen sulphate•E515 Potassium sulphates (i) Potassium sulphate (ii) Potassium hydrogen sulphate•E516 Calcium sulphate•E517 Ammonium sulphate•E520 Aluminium sulphate•E521 Aluminium sodium sulphate•E522 Aluminium potassium sulphate•E523 Aluminium ammonium sulphate•E524 Sodium hydroxide•E525 Potassium hydroxide•E526 Calcium hydroxide•E527 Ammonium hydroxide•E528 Magnesium hydroxide•E529 Calcium oxide•E530 Magnesium oxide•E535 Sodium ferrocyanide•E536 Potassium ferrocyanide•E538 Calcium ferrocyanide•E541 Sodium aluminium phosphate, acidic•E551 Silicon dioxide•E552 Calcium silicate•E553a (i) Magnesium silicate (ii) Magnesium trisilicate•E553b Talc•E554 Sodium aluminium silicate•E555 Potassium aluminium silicate•E556 Calcium aluminium silicate•E558 Bentonite•E559 Aluminium silicate (Kaolin)•E570 Fatty acids•E574 Gluconic acid•E575 Glucono-delta-lactone•E576 Sodium gluconate•E577 Potassium gluconate•E578 Calcium gluconate•E579 Ferrous gluconate•E585 Ferrous lactate•E586 4-hexylresorcinol [Listed in proposed amendment in COM(2004)650 published October 2004]•E620 Glutamic acid•E621 Monosodium glutamate•E622 Monopotassium glutamate•E623 Calcium diglutamate•E624 Monoammonium glutamate•E625 Magnesium diglutamate•E626 Guanylic acid•E627 Disodium guanylate•E628 Dipotassium guanylate•E629 Calcium guanylate•E630 Inosinic acid•E631 Disodium inosinate•E632 Dipotassium inosinate•E633 Calcium inosinate•E634 Calcium 5'-ribonucleotides•E635 Disodium 5'-ribonucleotides•E640 Glycine and its sodium salt•E650 Zinc acetate[Added in February 2001 by Directive 2001/5/EC]•E900 Dimethyl polysiloxane•E901 Beeswax, white and yellow•E902 Candelillla wax•E903 Carnauba wax•E904 Shellac•E905 Microcrystalline wax [Added in October 1998 by Directive 98/72/EC]•E907 Hydrogenated poly-1-decene [Added in December 2003 by Directive 2003/114/EC]•E912 Montanic acid esters•E914 Oxidized polyethylene wax•E920 L-Cysteine [Added in October 1998 by Directive 98/72/EC]•E927b Carbamide•E938 Argon•E939 Helium•E941 Nitrogen•E942 Nitrous oxide•E943a Butane[Added in February 2001 by Directive 2001/5/EC]•E943b Isobutane [Added in February 2001 by Directive 2001/5/EC]•E944 Propane [Added in February 2001 by Directive 2001/5/EC]•E948 Oxygen•E949 Hydrogen [Added in February 2001 by Directive 2001/5/EC]•E950 Acesulfame K•E951 Aspartame•E952 Cyclamic acid and its Na and Ca salts•E953 Isomalt•E954 Saccharin and its Na, K and Ca salts•E955 Sucralose [Added in December 2003 by Directive 2003/115]•E957 Thaumatin•E959 NeohesperidineDC•E962 Salt of aspartame - acesulfame [Added in December 2003 by Directive 2003/115]•E965 Maltitol (i) Maltitol (ii) Maltitol syrup•E966 Lactitol•E967 Xylitol•E968 Erythritol [Listed in proposed amendment in COM(2004)650 published October 2004]•E999 Quilllaia extract•E1103 Invertase [Added in October 1998 by Directive 98/72/EC]•E1105 Lysozyme•E1200 Polydextrose•E1201 Polyvinylpyrrolidone•E1202 Polyvinylpolypyrrolidone•E1404 Oxidized starch•E1410 Monostarch phosphate•E1412 Distarch phosphate•E1413 Phosphated distarch phosphate•E1414 Acetylated distarch phosphate•E1420 Acetylated starch•E1422 Acetylated distarch adipate•E1440 Hydroxy propyl starch•E1442 Hydroxy propyl distarch phosphate•E1451 Acetylated oxidised starch[Added in October 1998 by Directive 98/72/EC]•E1450 Starch sodium octenyl succinate•E1505 Triethyl citrate•E1517 Glyceryl diacetate (diacetin)•E1518 Glyceryl triacetate (triacetin)•E1519 Benzyl alcohol•E1520 Propan-1,2-diol (propylene glycol)[Added in February 2001 by Directive 2001/5/EC]。

SERVICE MANUALREFRIGERATION ©Electrolux Home Products S.p.A.Spares Operations ItalyCorso lino Zanussi, 30I - 33080 Porcia (PN)Fax +39 0434 394096S.O.I.Edition: 11.2006Publication no.599 38 43-56ENREFRIGERATORSwithelectric valveandelectronicERF2000DIGITSFACTORY: ZSCONTENT1INTRODUCTION (3)2REFRIGERATION CIRCUIT (5)3ELECTRIC WIRING (6)4COMPONENTS (8)4.1Control panel (8)4.2Electronic boards (9)4.2.1 ERF2000 Power board (10)4.2.2 ERF2000 DIGITS Display board (12)4.3Cooler and freezer compartments (13)4.3.1 Temperature sensors (14)4.3.2 Door switch (14)4.4Compressor compartment (14)4.4.1 Electric valve (15)5MAIN FUNCTIONS (16)5.1Normal (16)5.2FROSTMATIC Function (rapid freezing) (17)5.3COOLMATIC Function (rapid cooling) (17)5.4HOLIDAY Function (valid only for the cooler) (17)5.5Malfunctioning of cooler air temperature sensor (18)5.6Malfunctioning of freezer temperature sensor (19)6ALARMS (20)6.1Freezer compartment temperature alarm (20)7SPECIAL FUNCTIONS (21)7.1Service Mode (21)7.1.1 Starting Service Mode (21)7.1.2 Exiting Service Mode (21)7.1.3 Functions of the Service Mode (21)7.2DEMO MODE (23)7.2.1 Start DEMO MODE (23)7.2.2 Exit DEMO MODE (23)7.2.3 Functions of the DEMO MODE (23)8ACCESSIBILITY (24)8.1Control panel (24)9DISPLAY SYMBOLS (25)9.1Cooler compartment (25)9.2Freezer compartment (26)1INTRODUCTIONThis manual describes the refrigerators with electric valve and ERF2000 DIGITS electronic produced in the Susegana factory called ZS.These models feature:-static (static freezer, static cooler)-total built-in-DOOR ON DOOR door system-single-compressor-electronic control (electronic board ERF2000)-electric valve-digit displayThey are appliances (KBI290DVIT) with the following PNCs:PNC MODEL BRAND925701653JKG9499Juno-Electrolux925701654SC91840-5I AEG-Electrolux925701655SC81840-5I AEG-Electrolux925701656SC81840-5I AEG-Electrolux925701659ERO2923Electrolux925701660ERO2924Electrolux925701661JKG9499Juno-Electrolux925701662SC91840-5I AEG-Electrolux925701663SC91843-5I AEG-Electrolux925701664463.688-2Privileg925701665ERO2923Electrolux925701666ERO2923Electrolux925701667DRC629JE De Dietrich925701668IKE318-5-2Küppersbusch925701669DRC629JE De Dietrich925701670IKE318-5-2Küppersbusch925701671JCG94180Juno-ElectroluxThe controls of the appliance are inserted inside the upper crosspiece.The power control board is ERF2000.The user interface board is ERF2000 (DIGIT display).The appliance has a single-compressor and an electric valve is installed to simulate the operation of a two-compressor.It is possible to switch off only the cooler compartment and let the freezer operate, but not vice versa.The temperatures regulation is the following:•from +8 to +2 °C for the cooler;•from -15 to -24 °C for the freezer.The DIGIT display enables to show the temperatures of the two compartments. The appliance has the following functions:•rapid freezing;•rapid cooling;•freezer temperature alarm,•cooler compartment holiday.The appliance consists of the following compartments:•freezer;•cooler.The evaporating circuit consists of:•roll bond plate evaporator (freezer);•tube evaporator (cooler compartment).Key:A = control panelB = cooler compartmentC = freezer compartment2REFRIGERATION CIRCUITKey:pressor;2.condenser;3.anti-condensation coil;4.dehydrator filter;5.electric valve;6.tube evaporator (cooler compartment);7.plate evaporator (freezer compartment);8.exchanger.The electric valve has 2 outlet capillaries to power:•cooler + freezeror•only the freezer.3ELECTRIC WIRING(Check the specific diagram for each model!)Key:pressormp31.electric valve28.running capacitor (if featured) 41.ERF2000 power boarda.yellow-greenb.brownc.blued.whitee.black4COMPONENTS4.1Control panelKey:Cooler compartmentA.cooler ON/OFF indicator LEDB.cooler ON/OFF buttonC.cooler temperature increase button (+)D.cooler temperature displayingE.cooler temperature decrease button (-)F.COOLMATIC Function LED (rapid cooling)G.COOLMATIC function button (rapid cooling)Freezer compartmentH.ON/OFF indicator LED refrigeratore+freezerI.ON/OFF button cooler+freezerJ.freezer temperature increase button (+)K.freezer temperature displayingL.freezer temperature decrease button (-)M.FROSTMATIC Function LED (rapid freezing) N.FROSTMATIC function button (rapid freezing) O.alarm pilot lamp LEDP.alarm deactivation button4.2Electronic boardsThe electronic board of the appliance consists of:1.ERF2000 power board2.ERF2000 DIGITS display boardThe two electronic boards are connected by means of a flat cable with a connector; therefore, the two boards are available singularly as spare part.4.2.1ERF2000 Power board- View of the electronic board (side of components):1.earth contact2.free3.linepressor5.neutralmp neutralmp8.neutral electric valve9.electric valve1.free2.free1.cooler air temperature sensor2.cooler air temperature sensor3.cooler evaporator temperature sensor4.cooler evaporator temperature sensor5.freezer air temperature sensor6.freezer air temperature sensor1.free2.free1.free2.free3.free4.free1.free2.free4.2.2ERF2000 DIGITS Display boardKey:SW1= reed elementSW2= ON/OFF button cooler+freezerSW3= FROSTMATIC function button (rapid freezing) SW4= freezer temperature increase button (+)SW5= freezer temperature decrease button (-)SW6= cooler ON/OFF buttonSW7= COOLMATIC function button (rapid cooling) SW8= cooler temperature increase button (+)SW9= cooler temperature decrease button (-)SW10= alarm deactivation buttonDGT1= cooler displayDGT2= freezer displayDL1= COOLMATIC function LED (rapid cooling)DL2= FROSTMATIC function LED (rapid freezing) DL3= alarm pilot lamp LEDDL4= LED sign + coolerDL5= ON/OFF indicator LED coolerDL6= LED sign - freezerDL7= ON/OFF indicator LED cooler+freezer4.3Cooler and freezer compartmentsKey:A.freezer air temperature sensor;B.cooler air temperature sensor;C.cooler evaporator temperature sensor.1.cooler door magnet;2.display board reed element.4.3.1Temperature sensors3 NTC sensors are used to detect the temperatures of the two compartments:•freezer air temperature sensor A (located on the freezer cell);•cooler air temperature sensor B (located on the cooler cell);•cooler evaporator temperature sensor C (located on the cooler cell).The sensors A, B and C feature the foamed cable inside the cabinet, therefore they are not replaceable (for further information, please see Service Bulletin 599374122).4.3.2Door switchThe control of the cooler door opening is carried out by using the magnetic switch located on the display board. The magnetic switch is activated by a magnet located inside the cooler door.The control does not imply the activation of the open door alarm, but it is used to light up the lamp of the cooler compartment.4.4Compressor compartmentKey:pressorB.electric valve4.4.1Electric valveThe electric valve is of the 3-way bistable type.It is supplied together with the dehydrator filter.The connections of the electric valve are the following:-central hose with dehydrator filter to connect the condenser;-side hose (GS) to connect the capillary of the freezer circuit;-side hose (KS) to connect the capillary of the cooler+freezer circuit.The electric valve has the following values:-voltage 220 V - 50 Hz-response time <1 secNote:Comply with the electric connections and do not invert the polarity (the 2 terminals FAST-ON have different dimensions).5MAIN FUNCTIONS5.1NormalIn case of first switching on with a freezer compartment temperature higher than 10 °C, the appliance operates with a test cycle (for the factory) for a maximum time of about 1,5 hours.In this period do not perform tests for the correct operation of the appliance, since the loads of the appliance are activated only for internal check (compressor and electric valve).When the appliance is off then:•the compressor is off;•the displays are off.Pushing the ON/OFF button, the displays switch on with the following displaying:•+ symbol on cooler display;•flashing digits of the freezer;•freezer temperature alarm LED (buzzer active).Push the alarm deactivation button to deactivate the buzzer.Regulate the temperatures of the compartments so as to set the following values:•about +5 °C in the cooler;•about -18 °C in the freezer.Warning: Unplug the appliance before operating.5.2FROSTMATIC Function (rapid freezing)The FROSTMATIC function (rapid freezing) is activated by pushing the relative button, therefore:•The pilot lamp relative to the FROSTMATIC function lights up;•The compressor operates in thermostatic conditions and not continuously (like the temperature knob was on max. position) for a duration of about 52 hours, and then it deactivates automatically.To deactivate the FROSTMATIC function push the relative button.5.3COOLMATIC Function (rapid cooling)The COOLMATIC function (rapid cooling) is activated by pushing the relative button, therefore:•The pilot lamp relative to the COOLMATIC function lights up;•The compressor operates in thermostatic conditions and not continuously (like the temperature knob was on max. position) for a duration of about 6 hours, and then it deactivates automatically.To deactivate the COOLMATIC function push the relative button.5.4HOLIDAY Function (valid only for the cooler)The HOLIDAY function is activated when the customer does not want to use temporary the cooler.In this case it is not necessary to leave the cooler door open, because a 15 °C temperature is automatically set to avoid the formation of bad odours inside.To activate the HOLIDAY function push button + (temperature increase) till letter H is shown in the cooler dis-play.Obviously the cooler must be empty because the 15 °C temperature does not allow the preservation of the most common food.the sensor is out of range), then:When the sensor operates again normally, the above described conditions terminate.Characteristics of the NTC sensor:•The display shows cooler temperature sensor faulty.•The appliance operates with preset cycle when the compressor is powered for 40 minutes andremains off for 40 minutes alternatively.the sensor is out of range), then:When the sensor operates again normally, the above described conditions terminate.Characteristics of the NTC sensor:•The display shows freezer temperature sensor faulty.•The appliance operates with preset cycle when the compressor is powered for 40 minutes andremains off for 40 minutes alternatively.6ALARMS6.1Freezer compartment temperature alarmWhen the freezer compartment reaches -11 °C, the temperature alarm activates:•The display digits flash.•The temperature alarm pilot lamp light up.•The buzzer sounds.Push the alarm deactivation button to deactivate the buzzer.When normal conditions are reset (after a power failure):•The acoustic signal deactivates.•The temperature alarm pilot lamp remains on.•The display digits still flash.Pushing the alarm deactivation button:•The highest temperature reached in the freezer compartment is displayed for 5 minutes.•The alarm pilot lamp switches off.•The display digits do not flash anymore.7SPECIAL FUNCTIONS7.1Service Mode7.1.1Starting Service ModeTo start the procedure, perform the following operations:1.Connect the plug to the socket.2.Switch on the appliance with the ON/OFF button.3.Open the doors of the appliance.4.Switch the appliance off with the ON/OFF button.5.Within the first 10 seconds hold down simultaneously the two buttons “FROSTMATIC function (rapid freez-ing)” and “alarm deactivation”.The confirmation of the procedure start occurs with the acoustic signalling of the buzzer which emits a long beep and with the lighting up of all segments of the display.7.1.2Exiting Service ModeThe procedure terminates when one of the following operations is carried out:a.The plug is detached from the socket and reconnected.b.40 minutes have elapsed and no button has been pushed.c.The last phase of the procedure has been reached.7.1.3Functions of the Service ModePress the button “FROSTMATIC function (rapid freezing)” or “alarm deactivation” to skip to the following phase of the procedure.Prsss the “ON/OFF” button to activate/deactivate the loads (compressor, defrosting heater, lamp, fan and air flow regulator damper).List of the phases of the SERVICE MODE:1.All segments of the display are on.2.All segments of the displays are off.3.The number 0 is shown on the display and the load controlled by ACS TH1 [compressor] is checked.To activate/deactivate the load press the button “ON/OFF” (the load is activated when the rapid freezing FROSTMATIC function pilot lamp and the alarm pilot lamp light up).4.The number 1 is shown on the display and the load controlled by ACS TH2 [electric valve] is checked.To activate/deactivate the load press the button “ON/OFF” (the electric valve switches from one side to the other and it is possible to hear a click).5.The number 2 is shown on the display and the laod controlled by ACS TH3 [lamp] is checked.To activate/deactivate the load press the button “ON/OFF” (the load is activated when the rapid freezing FROSTMATIC function pilot lamp and the alarm pilot lamp light up).6.The number 3 is shown on the display and the load controlled by ACS TH4 [not used in this appliance] ischecked.To activate/deactivate the load press the button “ON/OFF” (the load is activated when the rapid freezing FROSTMATIC function pilot lamp and the alarm pilot lamp light up).Note:When the procedure skips to the following phase pressing the button “FROSTMATIC function (rapid freez-ing)” or “alarm deactivation”, the laod keeps its status (for example, if the compressor had been activated, it will remain on also in the subsequent phases); in this way it is possible to check the loads simultaneously.7.Check of the doors.The display digits correspond to the doors: the unit digits correspond to the cooler door, while the ten digits correspond to the freezer door.If the relative door is closed, the displayed digit is 0 otherwise is 1.8.Check of the counter.The display shows an increasing number at intervals of 1 second.This is a counter used by the board for its internal management.9.Check of the temperature sensors.The display shows one of the following codes:Code DESCRIPTIONE0No errorE1Evaporator sensor damagedE2Room temperature sensor damaged (installed on the display board)E4Room temperature sensor damaged (installed on the power board)E50 degree compartment sensor damagedNote:The errors regarding the cooler and freezer air sensors are already displayed during the normal operation. At this point all the phases necessary to chcek the loads have been displayed, therefore it is advisable to in-terrupt the procedure of the SERVICE MODE unplugging and replugging the appliance.Note:If you do not want to interrupt the SERVICE MODE, the procedure continues with some phases dedicated ex-clusively to the factory, therefore they must not to be considered.Also in this case the exit from the SERVICE MODE is carried out unplugging and replugging the appliance.7.2DEMO MODEThe DEMO MODE function is intended only for the commercial activity and not for the user.The internal temperature of the appliance, measured by the air sensors, must be higher than +10 °C so as the function can be activated.7.2.1Start DEMO MODETo start the procedure, hold down the ON/OFF button cooler+freezer and the freezer temperature decrease button for more than 5 seconds.The display digits flash every about 4 seconds.7.2.2Exit DEMO MODETo exit the procedure, hold down the ON/OFF button cooler+freezer and the freezer temperature decrease but-ton for more than 5 seconds or unplug the appliance.7.2.3Functions of the DEMO MODEThe procedure is used only for show in the selling points and allows selecting the temperatures without acti-vating the loads (compressor and electric valve).The displays show:•+ 5 °C for the cooler compartment (flashing display);•-18 °C for the freezer compartment (flashing display).By pushing the temperature regulation buttons, the displays show the temperatures that can be set (flashing display).The internal light switches on when the cooler door is opened.By pushing the cooler ON/OFF button it is possible to simulate the switching off of the cooler compartment (the lamp is off).8ACCESSIBILITY8.1Control panelTo access the control panel and its components (power and display boards) perform the following operations in sequence:a.Open the cooler door.Warning: Disconnect the appliance from the electric power before operating with theappliance.b) View of the control panel of the upper cross-piece.c) Remove the programme plate removing the 2 screw covers and the 2 fixing screws.d) Remove the transparent foil and extract the con-trol support.e) View of the power board.9DISPLAY SYMBOLS9.1Cooler compartmentDISPLAY DIGITS DESCRIPTIONNOT FLASHING It indicates the cooler temperature with normal function [from +2 to +8].FLASHING It indicates the cooler temperature with DEMO MODE func-tion [from +2 to +8].NOT FLASHING It indicates the HOLIDAY function of the cooler compart-ment [15 °C].NOT FLASHING It indicates the malfunctioning of cooler air temperature sensor.NOT FLASHING It indicates incompatibility between the electronic boards. Remedy: check the spare part nos. of the electronic boards.NOT FLASHING It indicates Eeprom parameter writing/reading error. Remedy: replace both electronic boards (power and dis-play).9.2Freezer compartmentDISPLAY DIGITS DESCRIPTIONNOT FLASHING It indicates the freezer temperature with normal function [from -15 to -24].FLASHING It indicates the freezer temperature with DEMO MODE function [from -15 to -24].NOT FLASHING It indicates the malfunctioning of freezer air temperature sensor.NOT FLASHING It indicates incompatibility between the electronic boards. Remedy: check the spare part nos. of the electronic boards.NOT FLASHING It indicates Eeprom parameter writing/reading error. Remedy: replace both electronic boards (power and dis-play).。

E v a l u a t i o nC e r t i f i c a t e Issuing Aut horit y NM i Certin B.V.22 December 2016C. Oost ermanHead C ert ificat ion BoardNM i Certin B.V. Hugo de Groot plein 1 3314 EG Dordrecht The Net herlandsT +31 78 6332332 cert in@nmi.nlwww.nmi.nl This document is iss ued under t he provis ion t hatno liability is accept ed and that the applicants hall indemnify third-part y liabilit y.R eproduction of t he completedocument only is permitt ed.Number TC10822 revision 0Project number: 16200475Page 1 of 1Issued by NM i C ert in B.V.In accordance w it h Aspect s of t he Volunt aryOIM L R117-Producer Endress + Hauser Flow t ec AGKägenst rasse 7C H-4153 ReinachS w it zerlandM easuring inst rument A flow transm itt er (calculat ing/indicat ing device for Endress + HauserC oriolis meters), int ended t o be used as a part of a measuring inst rument.Brand : Endress + Hauser Flow t ec AGDesignat ion : Promass 300S oft w are versions : see paragraph 1.2 of t he descript ionAccuracy class : 0,3Environment classes : M3 / E2Temperat ure range ambient: -40 °C +55 °CFurt her propert ies and t est result s are described in t he annexes:Descript ion TC10822 revision 0;Document at ion folder TC10822-1.R emarks An overview of t he performed t est s is given in Annex 2 appert aining t ot his Evaluat ion Cert ificat e.Number TC10822 revision 0Project number 16200475Page 1 of 51General inform ation on the flow transm itterAll propert ies of t his flow t ransmit t er, w het her ment ioned or not, shall not be in conflictw it h t he Legislat ion.This Evaluat ion Cert ificat e is t he posit ive result of t he applied volunt ary, modular approach, for a component of a measuring inst rument, as described in WELM EC guide 8.8.The complet e measuring inst rument must be covered by an EC-t ype examinat ion C ert ificat e or an EU-t ype examinat ion C ert ificat e.This Evaluat ion Cert ificat e is valid for t he Endress + Hauser flow t ransmit t er, as described in paragraph 1.1 of t he descript ion and may only be used in combinat ion w it h Coriolismeasurement sensors manufact ured by Endress + Hauser Flow t ec AG:- That are covered by an Evaluat ion Cert ificate;- Direct ly ment ioned in t he EU-t ype examinat ion cert ificat e of t he measuring syst em.1.1Essential PartsDescript ion Docum ent at ionRem arksnum berPow er Supply100 240 V AC / 50/60 Hz 10822/0-02; 10822/0-0324 V DC 10822/0-04; 10822/0-05100 240 V AC / 50/60 Hz;10822/0-06; 10822/0-0724 V DCA m plif ierFor Exi Hart10822/0-08; 10822/0-09 Zone 1 st andardFor Exi Hart10822/0-10; 10822/0-11 Zone 1 IIC 200 °CFor M odbus and Hart10822/0-12; 10822/0-13 Zone 2For Exd M odbus and Hart10822/0-14; 10822/0-15 Zone 1 st andardFor Exd M odbus and Hart10822/0-16; 10822/0-17 Zone 1 IIC 200 °CCPU M odemFor Exi hart devices 10822/0-18; 10822/0-19 I/O 1 = Exi current out put + HartFor Non-Ex Hart devices 10822/0-20; 10822/0-21 I/O 1 = C urrent out put + HartFor M odbus devices 10822/0-22; 10822/0-23 I/O 1 = M odbusI/O M odulesM ult i I/O module Non-Ex 10822/0-24; 10822/0-25 Frequency, pulse, st at us in/out,current in/outM ult i I/O module Ex 10822/0-26; 10822/0-27Double pulse 10822/0-28; 10822/0-29 Double pulse channel, phaseshift edDisplayDisplay module 10822/0-30; 10822/0-31 Int egrat ed in flow t ransmit t er orremot e (ext ernal) moduleNumber TC10822 revision 0Project number 16200475Page 2 of 5Descript ion Docum ent at ionRem arksnum berTerm inal boardsTerminal board 10822/0-32; 10822/0-33 For Ex devicesTerminal board 10822/0-34; 10822/0-35 For Non-Ex devicesTerminal board 10822/0-36 Used at remot e display moduleBack planeFor Ex devices 10822/0-37; 10822/0-38For non Ex devices 10822/0-39; 10822/0-40- Input s (sensor side)From t he connect ed C oriolis sensor t he Promass 300 receives:Tw o pick-of f signals; analogue mV signals from w hich t he mass flow and densit y aredeterminedOne t w o-w ire Pt-1000 t emperat ure t ransmit t er for t he measurement of t he t ubet emperat ureOne t w o-w ire Pt-1000 t emperat ure t ransmit t er for t he measurement of t he carriert ube t emperat ure.Please not e t hat t hese t emperat ures shall not be used for Cust ody Transfer relat edpurposes, but only for t he correct ion given above.- Out put s (sensor side)The Promass 300vibrat ing mot ion. The frequency of t he vibrat ion is aut omat ically adjust ed t o t heresonant f requency of t he measurement t ubes. This out put is referred t o as: drive current out put- Input/Out put (elect ronic calculat or/indicat ing device)The Promass 300 is equipped w it h t he follow ing C ust ody Transfer out put s: Double, 90° or 180° phase shif t ed pulse-out put for t he t ransmission of volume- ormass-informat ion. Phase shif t is select able4 20 mA out put for t he t ransmission of densit y. This out put can also be used forinput/out put via Hart prot ocol.Ot her informat ion can also be t ransmit t ed via t his out put (for example flow rat e), but t his informat ion is not W&M approved.4 20 mA input for t he t ransmission of product t emperat ure. The (ext ernal)t emperat ure is used for aut omat ic correct ion of t he t emperat ure influence on t heconnect ed measurement sensor and overrides bot h int ernal t w o-w ire Pt-1000t emperat ure sensors.4 20 mA input for t he t ransmission of product pressure. The pressure is used foraut omat ic correct ion of t he pressure influence on t he connect ed measurement sensor.S t at us input or st at us out put (depending on version)M odbus R S485 serial prot ocol. Dat a t ransmission is saf e guarded w it h C R C checksumover t he dat a package.Number TC10822 revision 0Project number 16200475Page 3 of 51.2Essential Characteristics-S oft w are t ype P;R isk C lass C;Ext ensions T and I-5 apply.- S oft w are-versionsVersion num bers Checksum01.00.02 0xE87F (M odbus)0x321F (Hart)The soft w are version and checksum can be verified on screen:S oft w are version, menus Diagnost ics Device Info Firmw are VersionC hecksum, menus Operat ion C ust ody Transfer ChecksumNot e t he s oft w are version includes t he soft w are of all modules ment ioned inparagraph 1.1.- C ust ody Transf er paramet ersThe C ust ody Transfer paramet ers and t he mandat ory set t ings are ment ioned in Annex 1.For securing t he Weight s and M easures paramet ers:Go t o menu S et up Advanced set up C ust.t rans. act.Login w it h aut horized user login and passw ord and complet e all ot her set t ings (dat eand t ime)S et dipsw it ch number 2 t o ON. Only t he Weight s and M easures paramet ers aresecured against changing.Aft er exit ing t he menu syst em, t he lock symbol () is show n on t he display and t hebot t om row show s t he Weight s and M easures count er.Alt ernat ive met hod is t o set dipsw itch number 1 to ON; t his secures all paramet ersagainst changing. The lock symbol () is show n on t he display.S ecurit y disabled S ecurit y enabled (paramet ers prot ect ed) - The flow t ransmit t er may only be used in combinat ion w it h an approved flow comput er[1] as t he display may not be used as a primary indicat ion.[1]The flow comput er must have an Evaluat ion or Part s Cert ificat e issued by a recognised Not ifiedBody under Annex M I-005 (M ID 2004/22/EC) or Annex VII (M ID 2014/32/EU).Number TC10822 revision 0 Project number 16200475 Page 4 of 51.3 Essential Shapes- Inscript ions of the Promass 300AtTC10822 is placed on t he housing(s) of the Promass 300; Ident ificat ion of t he measurementsensor; Serial number;In case of a remot e version: t he serial number of t he measurement sensor is inscribed on t he Promass 300 and/or t he serial number of t he Promass 300 is inscribed on t he measurement sensor. - S t at us of t he deviceIn case an elect ronic calculat or/indicat ing device is connect ed t o t he Promass 300, theis sent t o t he connect ed device in one of t he follow ing ways:-channels, t hus enabling t he flow comput er t o det ect a pulse failure and consequent ly generat e an alarm. Ifnecessary, an ext ra elect rical board is added t o prevent t his act ion short -circuit ing t hePromass 300.The current out put is set t o failure current (minimum or maximum value is possible), t hus enabling t he flow comput er t o det ect the failure.The Promass' pulse out put is set t o maximum pulse rat e for one channel and t o no pulses for t he ot her pulse channel. This w ill t rigger t he pulse securit y checking of t he connect ed elect ronic calculat or/ indicating device.The M odbus.In all cases t he st at us of t he device must be configured so, t hat t he alarm conditions- S ealing.S ee chapt er 2.- C ablingAll cables shall be shielded and t he shielding shall be connect ed on bot h sides.1.4 Conditional Part s- Key-boardThe keyboard consist s of a t hree keys of w hich t heir funct ion depends on t he menu and select ed it em. The keyboard is part of the LC D display. If t he display is not present , t he keyboard is also not present. - HousingInside t he met al housing t he Promass, t he essent ial and t he condit ional part s are mount ed. Access can be obt ained t hrough t w o sealable lids.S ee document at ion number 10822/0-01 for t he assembly of t he part s inside the housing. compact , explosion proof , direct ly mount ed on t he measurement sensor.Opt ionally t he display is mount ed in a separat e housing. The communicat ion w it h t he display is via M odbus.1.5 Conditional Shapes- Blinding of Promass displayIf an elect ronic calculat or/indicat ing device (flow comput er) is connect ed t o t he Promass 300, t he display (w hen present ) of t he Promass 300 may be blinded. The display is st ill pres ent and funct ioning, it is not possible t o read t he display.Number TC10822 revision 0Project number 16200475Page 5 of 52SealsAft er set t ing t he securit y sw it ch in t he secured posit ion, all lids are sealed against opening.3Conditions for Approval- Verify t he paramet ers set t ings ment ioned in Annex 1 for correct set t ing and w here applicable if t he set t ing is in accordance w it h t he calibrat ion dat a.- Ot her part ies may use t his Evaluat ion Cert ificat e only w it h t he w rit t en permission of Endress + Hauser Flow t ec AG, Kägenst rasse 7, CH-4153 R einach, S w it zerland.4Test ReportsAn overview of t he performed t est s is given in Annex 2 appert aining t o t his Evaluat ionC ert ificat e.Number TC10822 revision 0Project number 16200475Page 1 of 2M andat ory paramet er set t ings:General set t ings for all paramet ers (w here applicable):M ass unit: t, kg or gM ass flow unit: M et rical (for example kg/min)Volume unit: m3; dm3; cm3; L or mlVolume flow unit: M et rical (for example m3/h)Densit y unit: M et rical (for example kg/m3)Temperat ure unit: °C or KPressure unit: M et rical unitS imulat ion modes: S hall be disabledM enu Sub M enu Sub subm enuParam eter Value- DisplayLanguage Local language (preferred); EnglishOperat ionLocking S t at us C T act.; CT act.-def.par. S et up M ediumselect ionLiquidC urr.out put0/4 mA value S ee not e (1)20 mA valuePFS out put Assign pulse M ass flow or Volume flowValue perpulseS ee not e (2)Pulse w idt h S ee not e (3)Low flow cut off AssignvariableM ass flow or volume flow On value S ee not e (4)Off value S ee not e (5)Part ial pipe det AssignvariableDensit y Low value S ee not e (6) High valueAdvanced set up Tot aliser n Operat ionmodeS ee not e (7)Failure mode Act ual valueExpert S yst em Diagn.handlingAlarm delay 0Process param. Flow damping In accordance w it h t hecalibrat ion dat aDensit ydampingTemp.DampingNumber TC10822 revision 0Project number 16200475Page 2 of 2M enu Sub M enu Sub subm enuParam eter ValueExpert S ensor S ensor adjust. Inst all direct. C orrect inst allat ion direct ionshall be select ed.Variable adjust M ass flowoffsetS ee not e (8)M ass flowfact orS ee not e (9)Volume flowoffsetS ee not e (8)Volume flowfact orS ee not e (9) Densit y offset S ee not e (10) Densit y fact or S ee not e (10)C alibrat ion C al.Fact or According calibrat ion dat aNominaldiamet erC orrect sizeAccording calibrat ion dat aNot es t o t he mandat ory paramet er sett ings:(1)The sett ings in t he flow comput er shall mat ch t he set t ings in t he flow t ransmit t er.(2)The sett ings shall be such t hat t he maximum pulse frequency of 5000 Hz is not exceeded.(3)The value shall be such t hat t he pulses can st ill be processed by t he conn ect ed flow comput er.(4)Value at w hich t he low flow cut of f is enabled (pulse out put st opped)(5)Value at w hich t he low flow cut of f is disabled (pulsed st art ed). Is given as a percent age inrespect of t he On value.act ual value = On value x (1 + Off value/100).If t he act ual flow rat e is higher t han 20% of t he minimum flow rat e of t he (complet e)measuring syst em, pulses must be generat ed by t he flow t ransmit t er.(6)Values shall be explained during conformit y assessment(7)At leas t one of t he t ot alisers must be in accordance w it h t he calibrat ion dat a.(8)If t he mass or volume flow offset is not zero t he value shall be explained during t he conformit yasses sment for t he impact on t he meas urement performance. These paramet ers are notint ended for a correct ion of t he zero flow rate.(9)If t he mass/volume flow f act or is not 1 t he act ual value shall be explained during t heconformit y assessment for t he impact on t he measurement perf ormance.(10)If t he densit y off set and densit y fact or are not 0 resp. 1, t he act ual value s hall be explainedduring t he conformit y assessment.Number TC10822 revision 0Project number 16200475Page 1 of 1Performed t est s on t he flow transmit t er:TEST Part TYPE TEST REPORT TEST HOUSE REM A RKSC limat e , vibrat ion and EM C t est s according OIM L R117-2 Flowt ransmit t erPromass 300 NM i-16200475-01 NM i C ert in B.V.S oft w are Evaluat ion Flowt ransmit t erPromass 300 NM i-16200475-02 NM i C ert in B.V.。

Declaration of Compliancefor articles made of ceramic and metal intended to come into contact with food06.11.2017Hereby we confirm that our product:Item name: 4-pcs. cookware set Modesto w. panItem No.: 0021.2904.12complies with the legal regulations laid down in the German Commodity Ordinance,the Regulation (EC)No 1935/2004,in particular Article 3,11(5),15and 17,and the Regulation (EC)No 2023/2006,in their relevant versions.When used as specified,the transition of substances does not exceed the legal limits and the SRLs (Specific Release Limits)according to Council of Europe Resolution CM/Res(2013)9on metals and alloys used in food contact materials and articles (effective 2013–1st Edition).The tests are performed according to the Directive 84/500/EEC,last amended by 2005/31/EC,respectively according to the …Technical guide on metals and alloys used in food contact materials and articles “.Specification of the intended use or limitations:- Type(s) of food intended to come into contact with the material:- Intended duration and temperature of treatment and storage while in contact with the food:- Ratio of the area of the food contact surface to the volume used to determine the compliance of the food contact material or article made from metal:This declaration is valid for the product delivered by us as specified above.Under consideration of the food contact conditions stated,the product complies with the stipulations of these Directives regarding the specified foods.The user shall verify himself that the product is suitable for the intended food beyond the stipulations of the Directives.The validity of the declaration is ending if the requirements are changed.This document was created electronically and is valid without signature.Name of the document: L01_0021.2904.12_EN_20171106_4-pcs. cookware set Modesto w. pan_kl.pdf Silargan pots (special steel with ceramic coating) with chromed rim made of stainless steel, pan made of stainless steel with ceramic coating Item no. 21.0929.6737Description (material/optics)/ analogue items :repeated contact, short-time also above 100°C12,6all types of food (aqueous, acidic, fatty)WMF Group - a Group SEB company WMF Group GmbHVORSITZENDER DES AUFSICHTSRATES SITZ DER GESELLSCHAFT BANKVERBINDUNG Eberhardstraße 35Bertrand Neuschwander Geislingen | Steige Commerzbank AG Göppingen 73312 Geislingen | SteigeRECHTSFORM IBAN DE06 6104 0014 0160 3000 00GermanyGESCHÄFTSFÜHRER Gesellschaft mit beschränkter Haftung BIC COBADEFFXXX Dr. Volker Lixfeld | VORSITZENDER REGISTERGERICHT telefon+49 7331 25 1Bernd Stoeppel Amtsgericht Ulm HRB 732253fax+49 7331 45 387 WEEE-Reg.-Nr. DE 78426351 USt.-ID.-Nr. DE 298 927 552email****************** St.-Nr. 62050|01224web GLN 4000530 00000 2。

专利名称：A POROUS ZEOLITE OF ORGANOSILICON, A METHOD FOR PREPARING THE SAME ANDTHE USE OF THE SAME发明人：GAO, Huanxin,ZHOU, Bin,WEI, Yilun,FANG, Hua,GU, Ruifang,JI, Shufang申请号：EP07764077.9申请日：20070717公开号：EP2053021B1公开日：20130703专利内容由知识产权出版社提供摘要：The present invention relates to an organosilicon porous zeolite, preparation of the same, and use of the same. The organosilicon porous zeolite of the invention has the following composition on molar basis: (1/n)Al2O3:SiO(2-m/2):mR:×M, wherein n = 5 to 1000, m = 0.001 to 1, x=0.005 to 2, R is at least one selected from the group consisting of alkyl, alkenyl and phenyl and connected to a silicon atom in the framework of the zeolite, and M is an organic amine templating agent, wherein a solid Si29NMR spectrum of the zeolite has at least one Si29 nuclear magnetic resonance peak in the range of from -80 to +50 ppm, and wherein a X-ray diffraction pattern of the zeolite exhibits diffraction peaks corresponding to d-spacing of 12.4±0.2, 11.0±0.3, 9.3±0.3, 6.8±0.2, 6.1±0.2, 5.5±0.2,4.4±0.2, 4.0±0.2 and 3.4±0.1 Å. The porous zeolite can be used as an adsorbent or as a component of a catalyst for the conversion of an organic compound.申请人：CHINA PETROLEUM & CHEMICAL CORPORATION,SHANGHAI RESEARCH INSTITUTE OF PETROCHEMICAL TECHNOLOGY SINOPEC代理机构：HOFFMANN EITLE更多信息请下载全文后查看。

44 Flux-Cored WireActivated Rosin Cored Wire for Lead-Free and Leaded AlloysProduct DescriptionKester 44 Rosin Flux is an activated rosin formula for use in flux-cored solder wire. 44 has virtually dominated the field of activated rosin core solders for well over five decades. An outstanding performance feature of this flux is the “instant-action” wetting behavior. The high mobility and fast-spreading action of this flux results in more reliable production line soldering. Under IPC J-STD-004, 44 is classified as ROM1. Despite the increased activity and soldering performance, 44 passes both 85°C/85% RH and 40°C/90% RH SIR test methods.Reliability PropertiesCopper Mirror Corrosion: ModerateTested to J-STD-004, IPC-TM-650, Method 2.3.32Corrosion Test: Moderate Tested to J-STD-004, IPC-TM-650, Method 2.6.15Silver Chromate: FailTested to J-STD-004, IPC-TM-650, Method 2.6.33Chloride and Bromides: 0.44%Tested to J-STD-004, IPC-TM-650, Method 2.6.35Fluorides by Spot Test: PassTested to J-STD-004, IPC-TM-650, Method 2.6.35.1Surface Insulation Resistance (SIR) 40°C/90% RH, IPC (typical): PassTested to J-STD-004B, IPC-TM-650, Method 2.6.3.7Surface Insulation Resistance (SIR), IPC (typical): PassTested to J-STD-004, IPC-TM-650, Method 2.6.3.3Test conditions: 85°C, 85% RH, 7 days, 100VBlank44Day 17.46*109 Ω 2.2*108 ΩDay 4 4.9*109 Ω 2.88*109 ΩDay 77.7*109 Ω7.14*109 ΩRoHS ComplianceKester does not determine any applicable Restriction of Hazardous Substances (RoHS) exemptions for our lead containing products at the user level. (Applies only if this core flux is combined with a lead-free alloy)Performance Characteristics:■ High activity RA formulation ■ Passes both 85°C/85% RH and 40°C/90% RH IPC SIR testing■ Excellent solderability to a wide range of metalizations■ Industry standard RA cored wire for decades■ Classified as ROM1 per J-STD-004®Technical Data SheetHealth and SafetyThis product, during handling or use, may be hazardous to your health or the environment. Read the Safety Data Sheet (SDS) and warning label before using this product.Cleaning44 possesses excellent fluxing ability; the flux residues are non-corrosive, non-conductive and do not require removal for most applications under normal conditions of use. IPA will not clean the residues off the surface of the circuit board after the soldering process. If removal is required, a saponifier or cleaning agent specifically designed to clean a no-clean flux is required to clean the residues. Please contact Kester Technical Support for further information.Application NotesAvailability44 flux-cored wire is available in a wide variety of alloys, wire diameters, flux percentages and roll sizes in both leaded and lead-free alloys. The most common alloys are Sn63Pb37 and Sn60Pb40. Please refer to for more information.Note: Core size 50, 58 and 66 = 1.1%, 2.2% and 3.3% flux core, respectively.Process ConsiderationsSolder iron tip temperatures are most commonly between 315-343°C (600-650°F) for leaded alloys and 371-400°C (700-750°F) for lead-free alloys. Heat both the land area and component lead to be soldered with the iron tip prior to applying the solder wire to land area or component lead. Do not apply the wire directly to the soldering iron tip; doing so will shorten the life of the soldering tip.Additional liquid flux should only be used as a last resort. Any flux applied to the solder location should be kept to the area of the connection being reworked. If needed, Kester 186 or Kester NF372-TB may be used as a compatible liquid fluxes to aid in reworking soldered joints. Kester 186 and Kester NF372-TB are also available in Flux-Pens ® for optimum board cleanliness.®Storage must be in a dry, non-corrosive environment between 10-40°C (50-104°F). The surface may lose its shine and appear a dull shade of grey. This is a surface phenomenon and is not detrimental to product functionality. Flux-cored solder wire has a limited warranty period determined by the alloy used in the wire. For alloys containing more than 70% lead, the warranty period is 2 years from the date of manufacture. Other alloys have a warranty period of 3 years from the date of manufacture.。