1321S-AQ030AQ12中文资料

20XX 专业合同封面COUNTRACT COVER甲方：XXX乙方：XXX进口试验粉尘ISO121032024年通用本合同目录一览1. 合同概述1.1 合同类型1.2 合同双方1.3 合同内容2. 产品描述2.1 产品名称2.2 产品规格2.3 产品数量2.4 产品质量标准3. 交付与验收3.1 交付时间3.2 交付地点3.3 验收程序3.4 验收标准4. 价格与支付4.1 产品价格4.2 支付方式4.3 支付期限4.4 发票开具5. 质量保证5.1 产品质量5.2 产品有效期5.3 售后服务6. 运输与保险6.1 运输方式6.2 运输费用6.3 保险责任7. 违约责任7.1 卖方违约7.2 买方违约8. 争议解决8.1 争议解决方式8.2 适用法律9. 合同的生效、变更与解除9.1 合同生效条件9.2 合同变更9.3 合同解除10. 保密条款10.1 保密内容10.2 保密期限10.3 违约责任11. 不可抗力11.1 不可抗力事件11.2 不可抗力后果12. 其他条款12.1 合同附件12.2 合同修改12.3 合同解除13. 合同的签署与生效13.1 签署日期13.2 签署地点13.3 合同生效日期14. 双方声明14.1 卖方声明14.2 买方声明第一部分：合同如下：1. 合同概述1.1 合同类型本合同为进口试验粉尘ISO121032024年通用产品销售合同。

1.2 合同双方卖方：（卖方全称）买方：（买方全称）1.3 合同内容本合同内容包括产品名称、规格、数量、质量标准、交付与验收、价格与支付、质量保证、运输与保险、违约责任、争议解决、合同的生效、变更与解除、保密条款、不可抗力、其他条款、合同的签署与生效及双方声明等。

2. 产品描述2.1 产品名称本合同所指产品为：（产品名称）。

2.2 产品规格产品规格及技术参数详见附件一。

2.3 产品数量产品数量为：（具体数量），单位为：（计量单位）。

水平垂直燃烧测试仪不同阻燃等级试验说明水平垂直燃烧测试仪适用于照明设备、低压电器、家用电器、机床电器、电机、电动工具、电子仪器、电工仪表、电气连接件和辅件等电工电子产品及其组件部件的研究、生产和质检部门，也适用于绝缘材料、工程塑料或其它固体可燃材料行业，可供塑料工业、检验部门和科研单位使用。

适用标准：UL94、GB/T2408、IEC60695-11-10、IEC707、GB/T13488、ISO1210、ASTM/D635 48043801试验参数：阻燃性它用来评价材料在被点燃后熄灭的能力。

根据燃烧速度、燃烧时间、抗滴能力以及滴珠是否燃烧可有多种评判方法。

每种被测材料根据颜色或厚度都可以得到许多值。

当选定某个产品的材料时，其UL等级应满足塑料零件壁部分的厚度要求。

UL等级应与厚度值一起报告，只报告UL等级而没有厚度是不够的。

在塑料阻燃等级中UL94在塑料阻燃等级中UL94中共有12种：HB、V-0、V-1、V-2、5VA、5VB，极薄材料的VTM-0、VTM-1、VTM-2等级，泡棉材料的HBF、HF-1、HF-2等级。

塑料阻燃等级由HB，V-2，V-1，V-0，5VB向5VA逐级递增：HB：要求对于3到13毫米厚的样品，燃烧速度小于40毫米每分钟；小于3毫米厚的样品，燃烧速度小于70毫米每分钟；或者在100毫米的标志前熄灭。

V-2：对样品进行两次10秒的燃烧测试后，余焰&余燃在60秒内熄灭。

滴落的微粒可点燃棉花。

V-1：对样品进行两次10秒的燃烧测试后，余焰&余燃在60秒内熄灭。

滴落的微粒不可点燃棉花。

V-0：对样品进行两次10秒的燃烧测试后，余焰&余燃在30秒内熄灭。

滴落的微粒不可点燃棉花。

5VB:对样品进行五次5秒的燃烧测试后，余焰&余燃在60秒内熄灭。

滴落的微粒不可点燃棉花。

对于块状样品允许被烧穿。

5VA:对样品进行五次5秒的燃烧测试后，余焰&余燃在30秒内熄灭。

AS/NZS 3000:2000(Incorporating Amendment Nos.1, 2 and 3)(1、2、3号综合修改单)Australian/New Zealand StandardTM澳洲/新西兰标准TMWiring rules布线准则This Joint Australian/New Zealand Standard was prepares by Joint Technical Committee El/1. It was approved on behalf of the Council of Standards Australia on 23 August 1999 and on behalf of the Council of Standards New Zealand on 06 September 1999. It was published on 15 September 1999,however it is designated a year 2000 edition.本澳大利亚/新西兰联合标准由联合技术委员会El/1编制。

1999年8月23日以澳大利亚标准委员会的名义批准，1999年9月6日以新西兰标准委员会的名义批准。

1999年9月15日出版，但指定它为2000年版。

The following interests are represented on Committee El/1:EL/1委员会包括如下单位The Association of Consulting Engineers AustraliaAustralian Building Codes BoardAustralian Electrical and Electronic Manufacturers AssociationCommunications, Electrical Plumbing Union……Review of Standards.标准复审Australian/New Zealand Standard?ELECTRICAL INSTALLATIONS 电气安装(known as the Australian/New Zealand Wiring Rules)（称为澳洲、新西兰布线准则）Originated as part of AS CC1—1931. 源于part of AS CC1—1931部分Previous edition AS 3000—1991. AS 3000—1991前版本Jointly revised and designated AS/NZS 3000:2000.联合修订和指定的AS/NZS 3000:2000Reissued and incorporating Amendment No. 1 (September 2001). 再版1号综合修订单（2001年9月）Reissued incorporating Amendment No. 2 (April 2002).再版2号综合修订单（2002年4月）Reissued incorporating Amendment No. 3 (July 2003). 再版3号综合修订单（2003年7月）版权……PREFACE前言This Standard was prepared by the Joint Standards Australia/StandardsNew Zealand Committee EL/1, Wiring Rules, to supersede, in Australia, AS 3000 — 1991, Electrical installations — Buildings, structures and premises (known as the SAA Wiring Rules) and, in New Zealand, selected parts of NZS 3000:1997 Electrical installations — Buildings, structures and premises (known as the NZS Wiring Rules)as nominated by the appropriate regulator.本标准由澳洲标准/新西兰标准联合委员会EL/1编制,布线规范替代澳大利亚的AS 3000 — 1991，电气安装——建筑、结构和场所（称为SAA布线规范）和，新西兰的NZS 3000:1997电气安装——建筑、结构和场所（称为NZS布线规范）的选定部分,由合适的监控者指定。

A S T M A312不锈钢管ASTM A312不锈钢管中文版发布时间：11-04-16 来源：浙江新同力管业有限公司点击量：1479 字段选择：大中小ASTM A213/A213M-95a锅炉、过热器、热交换器用铁素体和奥氏体合金钢无缝钢管1. 范围1.1 本标准适用于锅炉和过热器用的最小壁厚的铁素体，奥氏体无缝管以及热交换器用的奥氏体无缝钢管，其牌号为T5、TP304等。

这些牌号分别列于表1和表2中。

1.2 牌号TP304H、TP309H、TP309HCb、TP310H、TP310HCb、TP310HCbN、TP316H、TP321H、TP347H、TP347HFG（细晶）、TP348H是牌号TP304、TP309S、TP30 9Cb、TP310S、TP310Cb、TP316、TP321、TP347和TP348的改进型，适用于在高温条件下使用，如用于过热器和再热器。

1.3 本标准提供的常用规格：内径1/8英寸（3.2mm）至外径5英寸(127毫米),最小壁厚≥0.015-0.500英寸(0.38-12.7mm).只要符合本标准其他所有要求,也可供应其他尺寸的钢管。

1.4 力学性能要求不适用于内径小于1/8英寸(3.2mm)或壁厚小于0.015英寸(0. 038mm)的钢管。

1.5 选择性补充要求,如有需要,应在订单中注明。

1.6 以英寸---磅单位制和SI单位制表示的数值应视为两种独立的值,本标准中SI单位写在括号内,每个系统表示的数值不完全相等.因此,每个单位制应单独使用.将两种体系的值混用将导致标准的不一致.若订单中未注明本标准的“M”符,则应使用英寸----磅单位制。

2. 引用标准2.1 ASTM标准A262 奥氏体不锈钢晶间腐蚀敏感性的测定A 450/A450M 碳钢、铁素体合金、奥氏体合金钢管的一般要求E112 平均晶粒度的测定方法E527 金属与合金的编号法（UNS）2.2 其它标准SAE J1086 金属与合金的编号法（UNS）3. 订单内容3.1 按本标准订购材料的订单，应视需要包括以下内容，对所需材料作适当说明：3.1.1 数量（英尺、米或根数）3.1.2 材料名称（无缝钢管）3.1.3 牌号（表1、表2和表3）3.1.4 制造加工（热加工或冷加工）3.1.5 组织性能的控制（见6.2）3.1.6 尺寸(外径和最小壁厚)3.1.7 长度(定尺或不定尺)3.1.8 所需试验报告(见ASTM A450/A450M 有关证明书一节)3.1.9 标准名称3.1.10 特殊要求和选用的补充要求4. 一般要求4.1 除非另有规定，按本标准供应的材料，应符合A450/A450M最新版的规定。

实施日期：编制/修订：日期：审核：日期：批准：日期：相关部门复议并参照执行：综合部：日期：财务部：日期：供应部：日期：安全部：日期：发酵车间：日期：提取车间：日期：成品车间：日期：动力车间：日期：质检中心：日期：技术中心：日期：文件修订记录十二烷基硫酸钠安全技术说明书一、目的化学品安全技术说明书（MSDS）为化学物质及其制品提供了有关安全、健康和环境保护方面的各种信息，并能提供有关化学品的基本知识、防护措施和应急行动等方面的资料。

二、适用范围本安全技术说明书适用于提取车间工作人员。

三、内容3.1、化学品名称3.1.1 化学品中文名称：十二烷基硫酸钠。

3.1.2 化学品英文名称：sodium lauryl sulfate 。

3.1.3 英文名称2：dodecyl sulfate，sodium salt。

3.1.4 分子式：C12H25SO4Na。

3.1.5 分子量：288.38。

3.2、成分/组成信息3.2.1 主要成分：十二烷基硫酸钠。

3.2.2 含量：92%。

3.2.3 CAS No.：151-21-3。

3.2.4 外观形状：白色或淡黄色粉状、针状。

3.3、危险性概述3.3.1、危险性类别：无；3.3.2、侵入途径：吸入、食入；3.3.3、健康危害：对眼、上呼吸道和皮肤有刺激作用。

可引起呼吸系统过敏性反应；3.3.4、环境危害：对环境有害；3.3.5、燃爆危险：可燃，其粉体与空气混合，能形成爆炸性混合物。

3.4、急救措施3.4.1、皮肤接触：脱去污染的衣着，用肥皂水和清水彻底冲洗皮肤。

如有不适感，就医。

3.4.2、眼睛接触：提起眼睑，用流动清水或生理盐水冲洗。

如有不适感，就医。

3.4.3、吸入：脱离现场至空气新鲜处。

如呼吸困难，给输氧。

就医。

3.4.4、食入：饮足量温水，催吐。

就医。

3.5、消防措施3.5.1危险特征：遇明火、高热可燃。

受高热分解放出有毒的气体。

3.5.2有害燃烧产物：一氧化碳、二氧化碳、硫化物、氧化钠。

EXECUTION APPROVAL SIGNATURES批准执行签名The signatures below indicate approval of this protocol and its attachments and indicate that it is ready for execution. Any changes or modifications to the intent or the acceptance criteria of this protocol, following approval, requires the generation of an amendment which must be approved prior to execution.下面的签名表示批准本文件及其附件，且表明已经为执行作好了准备。

在批准后，对本文件的目的或验收标准目录1.0SCOPE 范围........................................................................................................................... 错误!未定义书签。

2.0PURPOSE 目的...................................................................................................................... 错误!未定义书签。

3.0BACKGROUND 背景 ........................................................................................................... 错误!未定义书签。

USA SAFETY DATA SHEET1. CHEMICAL PRODUCT AND COMPANY IDENTIFICATIONProduct name:LORD 312 AProduct Use/Class: Epoxy Adhesive, Part 1 of 2LORD Corporation111 LORD DriveCary, NC 27511-7923 USATelephone: 814 868-3180Non-Transportation Emergency: 814 763-2345Chemtrec 24 Hr Transportation Emergency No.800 424-9300 (Outside Continental U.S. 703 527-3887)EFFECTIVE DATE: 06/02/20212. HAZARDS IDENTIFICATIONGHS CLASSIFICATION:Flammable liquids Category 4Acute toxicity Inhalation - Vapours Category 4 - 90.9% of the mixture consists of ingredient(s) of unknown toxicity.Acute toxicity Inhalation - Dust and Mist Category 4 - 90.9% of the mixture consists of ingredient(s) of unknown toxicity.Skin corrosion/irritation Category 2Serious eye damage/eye irritation Category 2ASkin sensitization Category 1Germ cell mutagenicity Category 2Carcinogenicity Category 2Reproductive toxicity Category 2Specific target organ systemic toxicity (single exposure) Category 3Specific target organ systemic toxicity (repeated exposure) Category 2 TestesSpecific target organ systemic toxicity (repeated exposure) Category 1 Respiratory systemHazardous to the aquatic environment - acute hazard Category 2Hazardous to the aquatic environment - chronic hazard Category 2GHS LABEL ELEMENTS:Symbol(s)Signal WordD ANGERHazard StatementsCombustible liquid.Harmful if inhaled.Causes skin irritation.Causes serious eye irritation.May cause an allergic skin reaction.Suspected of causing genetic defects.Suspected of causing cancer.Suspected of damaging fertility or the unborn child.May cause respiratory irritation.May cause damage to organs through prolonged or repeated exposure.(Testes)Causes damage to organs through prolonged or repeated exposure.(Respiratory system)Toxic to aquatic life.300000002701Toxic to aquatic life with long lasting effects.Precautionary StatementsPreventionKeep away from heat/sparks/open flames/hot surfaces. - No smoking.Obtain special instructions before use.Do not handle until all safety precautions have been read and understood.Wear protective gloves/protective clothing/eye protection/face protection.Use personal protective equipment as required.Do not breathe dust/fume/gas/mist/vapors/spray.Wash thoroughly after handling.Do not eat, drink or smoke when using this product.Use only outdoors or in a well-ventilated area.Contaminated work clothing should not be allowed out of the workplace.Avoid release to the environment.ResponseIn case of fire: refer to section 5 of SDS for extinguishing media.Call a POISON CENTER or doctor/physician if you feel unwell.Specific treatment (see supplemental first aid instructions on this label).IF INHALED: Remove to fresh air and keep at rest in a position comfortable for breathing.IF ON SKIN: Wash with plenty of soap and water.If skin irritation or rash occurs: Get medical advice/attention.IF IN EYES: Rinse cautiously with water for several minutes. Remove contact lenses, if present and easy to do.Continue rinsing.Take off contaminated clothing and wash before reuse.Collect spillage.StorageStore in a well-ventilated place. Keep cool.Store in a well-ventilated place. Keep container tightly closed.Store locked up.Disposal:Dispose of contents/container in accordance with waste/disposal laws and regulations of your country or particular locality.Other Hazards:This product contains component(s) which have the following warnings; however based on the GHS classification criteria of your country or locale, the product mixture may be outside the respective category(s).Acute: Harmful if absorbed through skin. Significant overexposure to n-butyl glycidyl ether by the inhalation route is unlikely under most ambient conditions due to its low volatility. However, vapors, aerosols, and mists may beformed during some applications such as heating or applications of uncured material on large surface areas. May be harmful if swallowed. Ingestion is not an expected route of entry in industrial or commercial uses.Chronic: IARC has designated N-Butyl glycidyl ether to be in Group 2B - possibly carcinogenic to humans.withheld.FIRST AID - EYE CONTACT: Flush eyes immediately with large amount of water for at least 15 minutes holding eyelids open while flushing. Get prompt medical attention.FIRST AID - SKIN CONTACT: Flush contaminated skin with large amounts of water while removing contaminated clothing. Wash affected skin areas with soap and water. Get medical attention if symptoms occur.FIRST AID - INHALATION: Move person to fresh air. Restore and support continued breathing. If breathing is difficult, give oxygen. Get immediate medical attention.FIRST AID - INGESTION: If swallowed, do not induce vomiting. Call a physician or poison control center immediately for further instructions. Never give anything by mouth if victim is rapidly losing consciousness, unconscious or convulsing.SUITABLE EXTINGUISHING MEDIA: Carbon Dioxide, Dry Chemical, Foam, Water Fog, AlcoholUNSUITABLE EXTINGUISHING MEDIA: Not determined for this product.SPECIFIC HAZARDS POSSIBLY ARISING FROM THE CHEMICAL: Keep containers tightly closed. Closed containers may rupture when exposed to extreme heat. Use water spray to keep fire exposed containers cool. During a fire, irritating and/or toxic gases and particulate may be generated by thermal decomposition or combustion.SPECIAL PROTECTIVE EQUIPMENT AND PRECAUTIONS FOR FIRE-FIGHTERS: Wear full firefighting protective clothing, including self-contained breathing apparatus (SCBA). If water is used, fog nozzles are preferable.PERSONAL PRECAUTIONS, PROTECTIVE EQUIPMENT AND EMERGENCY PROCEDURES: Avoid contact. Avoid breathing vapors. Use appropriate respiratory protection for large spills or spills in confined area.ENVIRONMENTAL PRECAUTIONS: Do not contaminate bodies of water, waterways, or ditches, with chemical or used container.METHODS AND MATERIALS FOR CONTAINMENT AND CLEANUP: Keep non-essential personnel a safe distance away from the spill area. Notify appropriate authorities if necessary. Avoid contact. Before attempting cleanup, refer to hazard caution information in other sections of the SDS form. Scoop spilled material into an appropriate container for proper disposal. (If necessary, use inert absorbent material to aid in containing the spill).HANDLING: Keep closure tight and container upright to prevent leakage. Avoid skin and eye contact. Wash thoroughly after handling. Do not handle until all safety precautions have been read and understood. Empty containers should not be re-used. Use with adequate ventilation.STORAGE: Store only in well-ventilated areas. Keep container closed when not in use.INCOMPATIBILITY: Amines, acids, water, hydroxyl, or active hydrogen compounds.Engineering controls: Sufficient ventilation in pattern and volume should be provided in order to maintain air contaminant levels below recommended exposure limits.PERSONAL PROTECTION MEASURES/EQUIPMENT:RESPIRATORY PROTECTION: Use a NIOSH approved air-purifying organic vapor respirator if occupational limits are exceeded. For emergency situations, confined space use, or other conditions where exposure limits may be greatly exceeded, use an approved air-supplied respirator. For respirator use observe OSHA regulations (29CFR1910.134) or use in accordance with applicable laws and regulations of your country or particular locality.SKIN PROTECTION: Use neoprene, nitrile, or rubber gloves to prevent skin contact.EYE PROTECTION: Use safety eyewear including safety glasses with side shields and chemical goggles where splashing may occur.OTHER PROTECTIVE EQUIPMENT: Use disposable or impervious clothing if work clothing contamination is likely. Remove and wash contaminated clothing before reuse.HYGIENIC PRACTICES: Wash hands before eating, smoking, or using toilet facility. Food or beverages should not be consumed anywhere this product is handled or stored. Wash thoroughly after handling.Typical values, not to be used for specification purposes.ODOR: Mild VAPOR PRESSURE: N.D.APPEARANCE: Yellow VAPOR DENSITY: Heavier than Air PHYSICAL STATE: Liquid LOWER EXPLOSIVE LIMIT: Not ApplicableUPPER EXPLOSIVE LIMIT: Not ApplicableFLASH POINT: 171 °F, 77 °CSetaflash Closed CupBOILING RANGE: N.A.EVAPORATION RATE: Not Applicable AUTOIGNITION TEMPERATURE:N.D.DENSITY: 1.13 g/cm3 (9.39 lb/gal) DECOMPOSITION TEMPERATURE:N.D. VISCOSITY, DYNAMIC: N.D.ODOR THRESHOLD: N.D.VISCOSITY, KINEMATIC: N.D.SOLUBILITY IN H2O: Insoluble VOLATILE BY WEIGHT: 0.00 %pH: N.A.VOLATILE BY VOLUME: 0.00 %FREEZE POINT: N.D. VOC CALCULATED: 0 lb/gal, 0 g/lN.D.COEFFICIENT OF WATER/OILDISTRIBUTION:LEGEND: N.A. - Not Applicable, N.E. - Not Established, N.D. - Not DeterminedHAZARDOUS POLYMERIZATION: Hazardous polymerization will not occur under normal conditions. STABILITY: Product is stable under normal storage conditions.CONDITIONS TO AVOID: High temperatures.INCOMPATIBILITY: Amines, acids, water, hydroxyl, or active hydrogen compounds.HAZARDOUS DECOMPOSITION PRODUCTS: Carbon monoxide, carbon dioxide, aldehydesEXPOSURE PATH: Refer to section 2 of this SDS.SYMPTOMS:Refer to section 2 of this SDS.TOXICITY MEASURES:Germ cell mutagenicity: Category 2 - Suspected of causing genetic defects.Components contributing to classification: N-Butyl glycidyl ether.Carcinogenicity: Category 2 - Suspected of causing cancer.Components contributing to classification: N-Butyl glycidyl ether.Reproductive toxicity: Category 2 - Suspected of damaging fertility or the unborn child.Components contributing to classification: N-Butyl glycidyl ether.PERSISTENCE AND DEGRADABILITY:Not determined for this product.BIOACCUMULATIVE: Not determined for this product.MOBILITY IN SOIL: Not determined for this product.OTHER ADVERSE EFFECTS: Not determined for this product.DISPOSAL METHOD: Disposal should be done in accordance with Federal (40CFR Part 261), state and local environmental control regulations. If waste is determined to be hazardous, use licensed hazardous waste transporter and disposal facility.US DOT RoadProper Shipping Name: Environmentally hazardous substances, liquid, n.o.s.Hazard Class: 9SECONDARY HAZARD: NoneUN/NA Number: 3082Packing Group: IIIEmergency Response Guide Number: 171For US DOT non-bulk road shipments this material may be classified as NOT REGULATED. For the most accurate shipping information, refer to your transportation/compliance department regarding changes inpackage size, mode of shipment or other regulatory descriptors.IATA CargoPROPER SHIPPING NAME: Environmentally hazardous substance, liquid, n.o.s.Hazard Class: 9HAZARD CLASS: NoneUN NUMBER: 3082PACKING GROUP: IIIEMS: 9LIMDGPROPER SHIPPING NAME: Environmentally hazardous substance, liquid, n.o.s.Hazard Class: 9HAZARD CLASS: NoneUN NUMBER: 3082PACKING GROUP: IIIEMS: F-AThe listed transportation classification applies to non-bulk shipments. It does not address regulatory variations due to changes in package size, mode of shipment or other regulatory descriptors. For the most accurate shipping information, refer to your transportation/compliance department.U.S. FEDERAL REGULATIONS: AS FOLLOWS:SARA SECTION 313This product contains the following substances subject to the reporting requirements of Section 313 of Title III of the Superfund Amendment and Reauthorization Act of 1986 and 40 CFR part 372.:NoneTOXIC SUBSTANCES CONTROL ACT:INVENTORY STATUSThe chemical substances in this product are on the active TSCA Section 8 Inventory or exempt.EXPORT NOTIFICATIONThis product contains the following chemical substances subject to the reporting requirements of TSCA 12(B) if exported from the United States:NoneUnder HazCom 2012 it is optional to continue using the HMIS rating system. It is important to ensure employees have been trained to recognize the different numeric ratings associated with the HazCom 2012 and HMIS schemes.HMIS RATINGS - HEALTH: 2 FLAMMABILITY: 2 PHYSICAL HAZARD: 0* - Indicates a chronic hazard; see Section 2Revision: Company LogoEffective Date: 06/02/2021The information contained herein is, to the best of our knowledge and belief, accurate. However, since the conditions of handling and use are beyond our control, we make no guarantee of results, and assume no liability for damages incurred by use of this material. It is the responsibility of the user to comply with all applicable federal, state and local laws and regulations.。

进口试验粉尘ISO12103合同编号：__________合同双方：甲方：（甲方全称）地址：____________________联系电话：__________________联系人：__________________乙方：（乙方全称）地址：____________________联系电话：__________________联系人：__________________鉴于甲方需要进口试验粉尘ISO12103，经双方友好协商，特订立本合同，共同遵照执行：第一条合同标的甲方同意向乙方购买进口试验粉尘ISO12103，详细技术参数及规格见附件。

第二条数量与质量1. 乙方应按附件中规定的数量提供试验粉尘ISO12103。

2. 乙方提供的试验粉尘ISO12103应符合国际标准ISO12103的要求，并提供相应的质量证明文件。

第三条价格与支付1. 试验粉尘ISO12103的价格为人民币（大写）：____元整（小写）：_____元。

2. 甲方应在本合同签订后五个工作日内，向乙方支付合同总价款的____%（百分比）。

3. 剩余款项在乙方交付试验粉尘ISO12103并经甲方验收合格后支付。

第四条交付与验收1. 乙方应按本合同约定的数量、质量、规格和时间向甲方交付试验粉尘ISO12103。

2. 甲方应在收到试验粉尘ISO12103后七个工作日内进行验收，并将验收结果通知乙方。

3. 如甲方对乙方提供的试验粉尘ISO12103有异议，甲方有权要求乙方在收到异议通知后的十个工作日内予以更换或退货。

第五条违约责任1. 任何一方违反本合同的约定，导致合同无法履行或造成对方损失的，应承担违约责任，向对方支付违约金，并赔偿损失。

2. 如乙方未能按约定时间、数量、质量交付试验粉尘ISO12103，甲方有权解除本合同，并要求乙方支付违约金。

第六条争议解决本合同履行过程中发生的争议，双方应友好协商解决；协商不成的，可以向有管辖权的人民法院起诉。

Designation:A123/A123M–02Standard Specification forZinc(Hot-Dip Galvanized)Coatings on Iron and Steel Products1This standard is issued under thefixed designation A123/A123M;the number immediately following the designation indicates the year of original adoption or,in the case of revision,the year of last revision.A number in parentheses indicates the year of last reapproval.A superscript epsilon(e)indicates an editorial change since the last revision or reapproval.This standard has been approved for use by agencies of the Department of Defense.1.Scope1.1This specification covers the requirements for zinc coating(galvanizing)by the hot-dip process on iron and steel products made from rolled pressed and forged shapes,castings, plates,bars,and strips.1.2This specification covers both unfabricated products and fabricated products,for example,assembled steel products, structural steel fabrications,large tubes already bent or welded before galvanizing,and wire work fabricated from uncoated steel wire.This specification also covers steel forgings and iron castings incorporated into pieces fabricated before galvanizing or which are too large to be centrifuged(or otherwise handled to remove excess galvanizing bath metal).N OTE1—This specification covers those products previously addressed in Specifications A123-78and A386-78.1.3This specification does not apply to wire,pipe,tube,or steel sheet which is galvanized on specialized or continuous lines,or to steel less than22gage(0.0299in.)[0.76mm]thick.1.4The galvanizing of hardware items that are to be centrifuged or otherwise handled to remove excess zinc(such as bolts and similar threaded fasteners,castings and rolled, pressed and forged items)shall be in accordance with Speci-fication A153/A153M.1.5Fabricated reinforcing steel bar assemblies are covered by the present specification.The galvanizing of separate reinforcing steel bars shall be in accordance with Specification A767/A767M.1.6This specification is applicable to orders in either inch-pound units(as A123)or SI units(as A123M).Inch-pound units and SI units are not necessarily exact equivalents. Within the text of this specification and where appropriate,SI units are shown in parentheses.Each system shall be used independently of the other without combining values in any way.In the case of orders in SI units,all testing and inspection shall be done using the metric equivalent of the test or inspection method as appropriate.In the case of orders in SI units,such shall be stated to the galvanizer when the order is placed.2.Referenced Documents2.1ASTM Standards:A47/A47M Specification for Ferritic Malleable Iron Cast-ings2A90/A90M Test Method for Weight[Mass]of Coating on Iron and Steel Articles with Zinc or Zinc-Alloy Coatings3 A143Practice for Safeguarding Against Embrittlement of Hot-Dip Galvanized Structural Steel Products and Proce-dure for Detecting Embrittlement3A153/A153M Specification for Zinc Coating(Hot-Dip)on Iron and Steel Hardware3A384/A384M Practice for Safeguarding Against Warpage and Distortion During Hot-Dip Galvanizing of Steel As-semblies3A385Practice for Providing High-Quality Zinc Coatings (Hot-Dip)3A767/A767M Specification for Zinc-Coated Galvanized Steel Bars for Concrete Reinforcement4A780Practice for Repair of Damaged and Uncoated Areas of Hot-Dip Galvanized Coatings3A902Terminology Relating to Metallic Coated Steel Prod-ucts3B6Specification for Zinc5B487Test Method for Measurement of Metal and Oxide Coating Thicknesses by Microscopical Examination of a Cross Section6B602Test Method for Attribute Sampling of Metallic and Inorganic Coatings6E376Practice for Measuring Coating Thickness by1This specification is under the jurisdiction of ASTM Committee A05on Metallic Coated Iron and Steel Products and is the direct responsibility of Subcommittee A05.13on Structural Shapes and Hardware Specifications.Current edition approved October10,2002.Published December2002.Origi-nally published as A123–st previous edition A123–01a.2Annual Book of ASTM Standards,V ol01.02.3Annual Book of ASTM Standards,V ol01.06.4Annual Book of ASTM Standards,V ol01.04.5Annual Book of ASTM Standards,V ol02.04.6Annual Book of ASTM Standards,V ol02.05. 1Copyright©ASTM International,100Barr Harbor Drive,PO Box C700,West Conshohocken,PA19428-2959,United States. Copyright ASTM InternationalProvided by IHS under license with ASTMNot for ResaleNo reproduction or networking permitted without license from IHS--`-`-`,,`,,`,`,,`---Magnetic-Field or Eddy-Current(Electromagnetic)Test Methods73.Terminology(See Fig.1)3.1Definitions:3.1.1The following terms and definitions are specific to this specification.Terminology A902contains other terms and definitions relating to metallic-coated steel products.3.2Definitions of Terms Specific to This Standard:3.2.1average coating thickness,n—the average of three specimen coating thicknesses.3.2.2black,adj—denotes the condition of not galvanized or otherwise coated.For purposes of this specification the word “black”does not refer to the color or condition of surface,or toa surface deposit or contamination.3.2.3coating thickness grade,n—the numerical value from Table1at the intersection of a material category and a thickness range.3.2.4gross dross inclusions,n—the iron/zinc intermetallics present in a galvanized coating in a form other thanfinely dispersed pimples.3.2.4.1Discussion—These inclusions would create an ex-posed steel spot if they were removed from the coating.These inclusions are raised surfaces and are easily knocked off7Annual Book of ASTM Standards,V ol03.03.or a portion of a test article,upon which thickness measure-ments are to be performed,which is a member of a lot,or a member of a sample representing that lot.For magnetic thickness measurements,specimen excludes any area of the surface which is subject to processes(such asflame cutting, machining,threading,etc.)that can be expected to result in surface conditions not representative of the general surface condition of the test article,or is disqualified by the measure-ment method.The minimum average coating thickness grade for any specimen shall be one coating grade below that required for the appropriate material category and thickness in Table1.For a unit of product whose surface area is equal to or less than160in.2[100000mm2],the entire surface area of each test article constitutes a specimen.In the case of an article containing more than one material category or steel thickness range as delineated in Table1,that article will contain more than one specimen,as appropriate(see Fig.1).have a mattefinish with little or no outer zinc layer.The galvanizer has only limited control over this condition.The mass,shape,and amount of cold working of the product being galvanized may also affect this condition.Practice A385provides guidance on steel selection and discusses the effects of various elements in steel compositions(for example,silicon),that influence coating weight and appearance.5.2Fabrication—The design and fabrication of the product to be galvanized are the responsibilities of the designer and the fabricator.Practices A143,A384,and A385provide guidance for steel fabrication for optimum hot dip galvanizing and shall be complied with in both design and fabrication.Consultation between the designer,fabricator,and galvanizer at appropriate stages in the design and fabrication process will reduce future problems.5.3Castings—The composition and heat treatment of iron and steel castings shall conform to specifications designated by the purchaser.Some types of castings have been known toshow potential problems with predisposition to being em-brittled during the normal thermal cycle of hot-dip galvanizing.It is the responsibility of the purchaser to heat treat or otherwise allow for the possibility of such embrittling phenom-ena.The requirements for malleable iron castings to be galvanized shall be as stated in Specification A 47.5.4Zinc —The zinc used in the galvanizing bath shall conform to Specification B6.If a zinc alloy is used as the primary feed to the galvanizing bath,then the base material used to make that alloy shall conform to Specification B 6.5.5Bath Composition —The molten metal in the working volume of the galvanizing bath shall contain not less than an average value of 98.0%zinc by weight.N OTE 3—The galvanizer may choose to add trace amounts of certain elements (for example,aluminum,nickel,and tin)to the zinc bath to help in the processing of certain reactive steels or to enhance the cosmetic appearance of the finished product.The use of these trace elements is permitted provided that the bulk chemistry of the galvanizing bath is at least 98.0%zinc by weight.The elements can be added to the galvanizing bath as part of a pre-alloyed zinc feed,or they can be added to the bath by the galvanizer using a master feed alloy.6.Coating Properties6.1Coating Thickness —The average thickness of coating for all specimens tested shall conform to the requirements of Table 1for the categories and thicknesses of the material being galvanized.Minimum average thickness of coating for any individual specimen is one coating grade less than that required in Table 1.Where products consisting of various material thicknesses or categories are galvanized,the coating thickness grades for each thickness range and material category of material shall be as shown in Table 1.In the case of orders in SI units,the values in Table 1,shall be applicable as metric units in micrometres.In the case of orders in inch-pound units,the measured value shall be converted to coating grade units by the use of Table 2.The specification of coating thicknesses heavier than those required by Table 1shall be subject to mutual agreement between the galvanizer and the purchaser.(Fig.2is a graphic representation of the sampling and specimen delineation steps,and Fig.3is a graphic representa-tion of the coating thickness inspection steps.)6.1.1For articles whose surface area is greater than 160in.2[100000mm 2](multi-specimen articles),each test article in the sample must meet the appropriate minimum average coating thickness grade requirements of Table 1,and each specimen coating thickness grade comprising that overallaverage for each test article shall average not less than one coating grade below that required in Table 1.6.1.2For articles whose surface area is equal to or less than 160in.2[100000mm 2](single-specimen articles),the average of all test articles in the sample must meet the appropriate minimum average coating thickness grade requirements of Table 1,and for each test article,its specimen coating thickness shall be not less than one coating grade below that required in Table 1.6.1.3No individual measurement,or cluster of measure-ments at the same general location,on a test specimen shall be cause for rejection under the coating thickness requirements of this specification provided that when those measurements are averaged with the other dispersed measurements to determine the specimen coating thickness grade for that specimen,the requirements of 6.1.1or 6.1.2,as appropriate are met.N OTE 4—The coating thickness grades in Table 1represent the mini-mum value obtainable with a high level of confidence for the ranges typically found in each material category.While most coating thicknesses will be in excess of those values,some materials in each category may be less reactive (for example,because of chemistry or surface condition)than other materials of the steel category spectrum.Therefore,some articles may have a coating grade at or close to the minimum requirement shown in Table 1.In such cases,the precision and accuracy of the coating thickness measuring technique should be taken into consideration when rejecting such articles for coating thickness below that required by this specification.Purchasers desiring a guarantee of heavier coatings than the minimum thicknesses shown herein should use the special requirements (see 4.1.6)to specify coating thickness grades higher than those shown inTABLE 2Coating Thickness Grade ACoating Grade mils oz/ft 2µm g/m 235 1.40.83524545 1.8 1.04532050 2.0 1.25035555 2.2 1.35539060 2.4 1.46042565 2.6 1.56546075 3.0 1.77553080 3.1 1.98056585 3.3 2.0856001003.92.3100705AThe values in micrometres (µm)are based on the Coating Grade.The other values are based on conversions using the following formulas:mils =µm 30.03937;oz/ft 2=µm 30.02316;g/m 2=µm 37.067.N OTE 1—Each specimen comprises nominally one third of the total surface area of the article.A minimum of five measurements should be made within the volume of each specimen,as widely dispersed within that volume as is practical,so as to represent as much as possible,the general coating thickness within that specimen volume.FIG.2Articles Made of ManyComponentsA 123/A 123M –024Copyright ASTM InternationalProvided by IHS under license with ASTMNot for ResaleNo reproduction or networking permitted without license from IHS--`-`-`,,`,,`,`,,`---Table1.In addition,the purchaser should anticipate the need for test batches or extra preparation steps,or both,such as blasting before galvanizing or other methods,to attempt to reach the higher requirements with consistency.Some higher-than-standard thicknesses may be imprac-tical or unattainable.6.2Finish—The coating shall be continuous(except as provided below),and as reasonably smooth and uniform in thickness as the weight,size,shape of the item,and necessary handling of the item during the dipping and draining operations at the galvanizing kettle will permit.Except for local excess coating thickness which would interfere with the use of the product,or make it dangerous to handle(edge tears or spikes), rejection for nonuniform coating shall be made only for plainly visible excess coating not related to design factors such as holes,joints,or special drainage problems(see Note6).Since surface smoothness is a relative term,minor roughness that does not interfere with the intended use of the product,or roughness that is related to the as-received(un-galvanized) surface condition,steel chemistry,or steel reactivity to zinc shall not be grounds for rejection(see Note7).Surface conditions related to deficiencies related to design,detailing,or fabrication as addressed by Practice A385shall not be grounds for rejection.The zinc coating on threaded components of articles galvanized under this specification shall conform to that required in Specification A153/A153M.Surfaces that remain uncoated after galvanizing shall be renovated in accor-dance with the methods in Practice A780unless directed by the purchaser to leave the uncoated areas untreated for subse-quent renovation by the purchaser.6.2.1Each area subject to renovation shall be1in.[25mm] or less in its narrowest dimension.6.2.2The total area subject to renovation on each article shall be no more than1⁄2of1%of the accessible surface area to be coated on that article,or36in.2per short ton[256cm2per metric ton]of piece weight,whichever is less.N OTE5—Inaccessible surface areas are those which cannot be reached for appropriate surface preparation and application of repair materials as described in Practice A780.Such inaccessible areas,for example,would be the internal surfaces of certain tanks,poles,pipes,tubes,and so forth.6.2.3The thickness of renovation shall be that required by the thickness grade for the appropriate material category and thickness range in Table1in accordance with the requirements of 6.1,except that for renovation using zinc paints,the thickness of renovation shall be50%higher than that required by Table1,but not greater than4.0mils.6.2.4When areas requiring renovation exceed the criteria previously provided,or are inaccessible for repair,the coating shall be rejected.N OTE6—The requirements for thefinish of a galvanized product address themselves to a visual type of inspection.They do not address the matter of measured coating thickness variations that can be encountered because of different steels or different thicknesses of a given steel being used in an assembly.N OTE7—Items which are prepared for galvanizing by abrasive clean-ing will generally develop a thicker coating with a moderately rougher surface.6.3Threaded Components in Assemblies—The zinc coating on external threads shall not be subjected to a cutting,rolling, orfinishing tool operation,unless specifically authorized by the purchaser.Internal threads are not prohibited from being tapped or retapped after galvanizing.Coatings shall conform to the requirements of Specification A153/A153M.6.4Appearance—Upon shipment from the galvanizing fa-cility,galvanized articles shall be free from uncoated areas, blisters,flux deposits,and gross dross inclusions.Lumps, projections,globules,or heavy deposits of zinc which will interfere with the intended use of the material will not be permitted.Plain holes of1⁄2-in.[12.5-mm]diameter or more shall be clean and reasonably free from excess zinc.Marks in the zinc coating caused by tongs or other items used in handling the article during the galvanizing operation shall not be cause for rejection unless such marks have exposed the base metal and the bare metal areas exceed allowable maximums from6.2.1and6.2.2.The pieces shall be handled so that after galvanizing they will not freeze together on cooling.N OTE8—Depending upon product design or material thickness,or both,filming or excess zinc buildup in plain holes of less than1⁄2-in.[12.5-mm]diameter may occur that requires additional work to make the holes usable as intended.6.5Adherence—The zinc coating shall withstand handling consistent with the nature and thickness of the coating and the normal use of the article,without peeling orflaking.N OTE9—Although some material may be formed after galvanizing,in general the zinc coating on the articles covered by this specification is too heavy to permit severe bending without damaging the coating.7.Sampling7.1Sampling of each lot shall be performed for conform-ance with the requirements of this specification.7.2A lot is a unit of production or shipment from which a sample is taken for testing.Unless otherwise agreed upon between the galvanizer and the purchaser,or established within this specification,the lot shall be as follows:For testing at a galvanizer’s facility,a lot is one or more articles of the same type and size comprising a single order or a single delivery load,whichever is the smaller,or any number of articles identified as a lot by the galvanizer,when these have been galvanized within a single production shift and in the same bath.For test by the purchaser after delivery,the lot consists of the single order or the single delivery load,whichever is the smaller,unless the lot identity,established in accordance with the above,is maintained and clearly indicated in the shipment by the galvanizer.7.3The method of selection and number of test specimens shall be agreed upon between the galvanizer and the purchaser. Otherwise,the test specimens shall be selected at random from each lot.In this case,the minimum number of specimens from each lot shall be as follows:Number of Pieces in Lot Number of Specimens3or less all4to5003501to120051201to320083201to100001310001and over20N OTE10—Where a number of identical items are to be galvanized,a statistical sampling plan may be desired.Such a plan is contained in Test Method B602which addresses sampling procedures for the inspection of electrodeposited metallic coatings and relatedfinishes.If Test Method B602is used,the level of sampling shall be agreed upon between the galvanizer and the purchaser at the time the coating order is placed. 7.4A test specimen which fails to conform to a requirement of this specification shall not be used to determine the conformance to other requirements.8.Test Methods8.1Test Requirements—The following tests shall be con-ducted to ensure that the zinc coating is being furnished in accordance with this specification.The specifying of tests for adhesion and embrittlement shall be subject to mutual agree-ment between the galvanizer and purchaser.Visual inspection of the coating shall be made for compliance with the require-ments.8.2Thickness of Coating Test—The thickness of coating is determined by one or more of the three methods described as follows.8.2.1Magnetic Thickness Measurements—The thickness of the coating shall be determined by magnetic thicknessgage measurements in accordance with Practice E376unless the methods described in8.2.2,8.2.3,or8.2.4are used.For each specimen(as described in3.2.9)five or more measurements shall be made at points widely dispersed throughout the volume occupied by the specimen so as to represent as much as practical,the entire surface area of the test specimen.The average of thefive or more measurements thus made for each specimen is the specimen coating thickness.8.2.1.1For articles whose surface area is greater than160 in.2[100000mm2](multi-specimen articles as described in 3.2.6),the average of the three specimen coating thickness grades comprising each test article is the average coating thickness for that test article.A specimen must be evaluated for each steel category and material thickness within the require-ments for each specimen of the test article.8.2.1.2For articles whose surface area is equal to or less than160in.2[100000mm2](single-specimen articles as described in 3.2.8),the average of all specimen coating thickness grades is the average coating thickness for the sample.8.2.1.3In the case of threaded components,the thickness of coating shall be made on a portion of the article that does not include any threads.8.2.1.4The use of magnetic measurement methods is ap-propriate for larger articles,and is appropriate for smaller articles when there is sufficientflat surface area for the probe tip to sitflat on the surface using Practice E376.8.2.2Stripping Method—The average weight of coating shall be determined by stripping a test article,a specimen removed from a test article,or group of test articles in the case of very small items such as nails,etc.,in accordance with Test Method A90/A90M unless the methods described in8.2.1, 8.2.3,or8.2.4are used.The weight of coating per unit area thus determined is converted to equivalent coating thickness values in accordance with Table2(rounding up or down as appropriate).The thickness of coating thus obtained is the test article coating thickness,or in the case of a specimen removed from a test article,is the specimen average coating thickness.8.2.2.1The stripping method is a destructive test and is appropriate for single specimen articles,but is not practical for multi-specimen articles.8.2.3Weighing Before and After Galvanizing—The average weight of coating shall be determined by weighing articles before and after galvanizing,subtracting thefirst weight from the second and dividing the result by the surface area unless the methods described in8.2.1,8.2.2,or8.2.4are used.Thefirst weight shall be determined after pickling and drying and the second after cooling to ambient temperature.The weight of coating per unit area thus determined is converted to equivalent coating thickness values according to Table2(rounding up or down as appropriate).The thickness of coating thus obtained is the test article coating thickness.8.2.3.1The weighing before and after method is appropriate for single-specimen articles,but is not practical for multi-specimen articles.N OTE11—Both the stripping method and the weighing before and after method do not take into account the weight of iron reacted from the articlethat is incorporated into the coating.Thus,the methods may underestimate coating weight(and therefore the calculated thickness)by up to10%.The accuracy of both methods will be influenced by the accuracy to which the surface area of the articles tested can be determined.8.2.4Microscopy—The thickness of coating shall be deter-mined by cross-sectional and optical measurement in accor-dance with Test Method B487unless the methods described in8.2.1,8.2.2,or8.2.3are used.The thickness thus determined isa point value.No less thanfive such measurements shall be made at locations on the test article which are as widely dispersed as practical,so as to be representative of the whole surface of the test article.The average of no less thanfive such measurements is the specimen coating thickness.8.2.4.1The microscopy method is a destructive test and is appropriate for single-specimen articles,but is not practical for multi-specimen articles.8.2.5Referee Method—In the event of a dispute over thickness of coating measurements,the dispute shall be re-solved as follows:8.2.5.1For multi-specimen articles,a new sample shall be taken randomly from the lot of material,which has twice the number of test articles as the sample which failed to conform to this specification.If the lot size is such that the sample size cannot be doubled,then the sample size shall be as previous, but the number of widely dispersed sites at which measure-ments were made shall be doubled,and these sites will constitute the new sample.This new sample shall be measured using magnetic thickness gages which have been calibrated for accuracy against reference material thickness standards.If the lot is found to be nonconforming by the new sample,the galvanizer has the right to sort the lot for conforming articles by individual test,to re-galvanize non-conforming articles,or to renovate the nonconforming articles in accordance with6.2.8.2.5.2For single-specimen articles,a new sample shall be taken randomly from the lot of material,which has twice the number of test articles as the sample which failed to conform to this specification.The test method for the new sample shall be selected by mutual agreement between the purchaser and galvanizer.If the lot is found to be nonconforming by the new sample,the galvanizer has the right to sort the lot for conforming articles by individual test,to re-galvanize non-conforming articles,or to renovate the nonconforming articles in accordance with6.2.8.3Adhesion—Determine adhesion of the zinc coating to the surface of the base metal by cutting or prying with the point of a stout knife,applied with considerable pressure in a manner tending to remove a portion of the coating.The adhesion shall be considered inadequate if the coatingflakes off in the form of a layer of the coating so as to expose the base metal in advance of the knife point.Do not use testing carried out at edges or corners(points of lowest coating adhesion)to determine adhesion of the coating.Likewise,do not use removal of small particles of the coating by paring or whittling to determine failure.8.4Embrittlement—Test for embrittlement shall be made in accordance with Practice A143.These tests shallnot be required unless strong evidence of embrittlement is present.9.Inspection,Rejection,and Retest9.1Inspection by the Galvanizer—It is the responsibility of the galvanizer to ensure compliance with this specification. This shall be achieved by an in-plant inspection program designed to maintain the coating thickness,finish,and appear-ance within the requirements of this specification unless the inspection is performed in accordance with9.2.9.2Inspection By the Purchaser—The purchaser shall ac-cept or reject material by inspection either through the galva-nizer’s inspector,the purchaser’s inspector,or an independent inspector.The inspector representing the purchaser shall have access at all times to those areas of the galvanizer’s facility which concern the application of the zinc coating to the material ordered while work on the contract of the purchaser is being performed.The galvanizer shall afford the inspector all reasonable facilities to satisfy him that the zinc coating is being furnished in accordance with this specification.9.3Location—The material shall be inspected at the galva-nizer’s plant prior to shipment.However,by agreement the purchaser is not prohibited from making tests which govern the acceptance or rejection of the materials in his own laboratory or elsewhere.9.4Reinspection—When inspection of materials to deter-mine conformity with the visual requirements of6.2warrants rejection of a lot,the galvanizer is not prohibited from sorting the lot and submit it once again for acceptance after he has removed any nonconforming articles and replaced them with conforming articles.9.5The sampling plan that was used when the lot wasfirst inspected shall be used for resampling of a sorted lot.By mutual agreement,the galvanizer is not prohibited from submitting the lot remaining after sorting and removing non-conforming articles without replacement of the nonconforming articles.In such case,the now-smaller lot shall be treated as a new lot for purposes of inspection and acceptance.9.6Materials that have been rejected for reasons other than embrittlement are not prohibited from being stripped and regalvanized and again submitted for inspection and test at which time they shall conform to the requirements of this specification.10.Certification10.1When specified in the purchase order or contract,the purchaser shall be furnished certification that samples repre-senting each lot have been either tested or inspected as directed by this specification and the requirements have been met. When specified in the purchase order or contract,a report of the test results shall be furnished.11.Keywords11.1coatings—zinc;galvanized coatings;steel products—metallic coated;zinc coatings—steel products。