分散剂 W 578的说明书

分散剂配制方法一、分散型分散剂TK-5C的配置(9095kg)1.配方1）无离子水8500L2）TCR-7507P 450kg3）TCR-HPMP 75kg4）TCR-4040 70kg2、操作现往配置槽内加入无离子水4000L,开搅拌，然后按配方量加入TCR HPMP和TCR 7507P，注意加入时候不要太快，要在过滤网上均匀加入，以避免产生结块，1分钟加入一袋。

搅拌均匀后再加入无离子水4500L.通蒸汽升温到60，然后关闭蒸汽，通入5水进行降温。

当温度到25时，按配方量加入TCR4040。

温度降至10～20时，即可降槽。

通知分析室取样化验。

贮槽温度保持5～10二、保胶型分散剂TC-22C的配置（8880kg）1、配方1）无离子水 8500L2）TCR-8624 380kg2、操作先往配置槽内加入无离子水5000L，开搅拌，然后按配方量加入TCR-8624,注意加入时候不要太快，要在过滤网上均匀加入，以避免产生结块，1分钟加入一袋。

搅拌均匀后再加入无离子水3500L冷搅拌30m im。

通入蒸汽升温到55，然后关闭蒸汽，通入5水进行降温。

降温降至10～20时，即可降槽。

通知分析室取样化验。

贮槽温度保持5～10 注意；分散剂7206 (PVA)55（二次分散剂）增加吸油率50 （纤维素）孔隙率88 （保胶分散剂）四元体系 TK-22c 表观密度TK-5c 颗粒引发剂EHP 83 ℃ 0.1h TX-99 75 ℃ 0.1h64 ℃ 1h 56 ℃ 1h47 ℃ 10h 38 ℃ 10h。

Desmodur ®N 75 BA/X第1页）页（共4页）特性Desmodur N 75 BA/X 是 基 于HDI 溶 解 在1 ：1 的 醋 酸 丁 酯 和 二 甲 苯中 的 脂 肪 族 聚 异 氰 酸 酯规格特性数值单位测试方法NCO含量16.5 ± 0.3%粘度at 25°C 150 ± 60mPa·sHazen 色值≤ 60单体HDI ≤ 0.5%非挥发组份含量75 ± 1%其它数据*特性数值单位测试方法外观澄清，淡黄色液体闪点(Setaflash)33°C当量avg. (as supplied)255粘度at 23°C 160mPa∙s 比重at 25°C 1.06g/cm 3每加仑重量at 25°C8.85Ib.*此数据为一般性资料，不作为产品说明书的一部分。

Desmodur ®N 75 BA/X第2页）页（共4页）特性/应用Desmodur N 75 BA/X 脂 肪 族 聚 异 氰 酸 酯 是 推 荐 用 于 制 备 内 外 部 装饰 的 双 组 分 清 漆 和 色 漆 。

基 于Desmodur N 75BA/ X 的 涂 料 具 有 优异 的 保 光 性 和 当 配 制 适 当 的 羟 基 官 能 团 的 共 反 应 物 后 优 异 的 耐候 性 。

这 些 涂 料 都 具 有 很 好 的 耐 溶 剂 ， 化 学 品 ， 和 磨 损 性 能 。

Desmodur N 75 BA/X 聚 异 氰 酸 酯 通 常 是 用 聚 酯 或 丙 烯 酸 羟 基 官 能的 共 反 应 物 。

和 丙 烯 酸 树 脂 组 合 ， 通 常 具 有 短 时 间 快 速 干 燥 且无 灰 尘 和 相 对 较 低 的 要 求 聚 异 氰 酸 酯 。

采 用 高 官 能 度 的 聚 酯 和Desmodur N 75 BA/X 聚 异 氰 酸 酯 共 反 应 物 的 涂 料 具 有 改 进 的 耐 化 学品 性 和 耐 磨 性 ， 要 求 较 高 水 平 的 聚 异 氰 酸 酯 ， 和 以 较 慢 的 干 燥 。

一种快干、单组份、改性丙烯酸面漆。

产品概述一种用于水上区域的装饰面漆。

用于新造船、维修和保养或在航保养。

预期用途LAB000-白色, LAK724-风暴灰, LAL274-红色, LAL549-标志绿, LAY999-黑色 ; 和范围广泛的颜色。

35％±3% (ISO 3233:1998)40 微米干膜厚 (118 微米湿膜厚)在 40 微米干膜厚时理论涂布率为 8.75 米²/公升，允许适当的损耗系数无气喷涂, 刷涂, 辊涂产品信息体积固体份标准膜厚理论涂布率施工方法面漆/光泽半光乙组份（固化剂）不适用混合比例不适用闪点单组份 23°C (在北美地区生产和供应的产品，由于采用当地溶剂，其闪点为 26°C 。

对产品性能没有不利影响)。

复涂数据－见“限定”一节底材温度颜色干燥资料-5°C 5°C 25°C 35°C 表干 [ISO 1517:73] 2 小时60 分钟30 分钟15 分钟 硬干 [ISO 9117:90]36 小时24 小时8 小时8 小时复涂下列产品时 -5°C5°C25°C35°C最小最大最小最大最小最大最小最大Intersheen 57924 小时不限8 小时不限4 小时不限2 小时不限法定数据挥发性有机化合物挥发性有机化合物值是典型值，仅提供用来作为参考。

它们可能会随着诸如颜色和常规制造误差之类因素的改变而发生变化。

565 克/公升(原装涂料) (EPA 方法 24)518 克/千克(原装液体油漆)。

欧盟溶剂排放指导 (委员会指导1999/13/EC)当作为已核准的方案的一部分使用时，该涂料具有下列证书：证书• 食品接触－装载谷物 (NOHA)有关详细情况，请向贵处的国际油漆 (International Paint) 代表咨询。

Intersheen 579 仅应施工在所推荐的防锈底漆上。

威来惠南的农用表面活性剂介绍公司简介威来惠南集团（中国）有限公司于1995年在香港注册，专业代理和引进国际著名厂商的化工原材料，集团总部设在香港，在北京、上海、广州、成都、青岛、武汉、厦门都设有办事机构，在中国上海，设立专业的实验技术中心。

依靠完善的销售网络，专业化的销售队伍，使我们为客户提供优质的产品和及时可靠的服务。

公司自成立以来，已经和多家国际化工公司建立了密切的合作伙伴关系，“关注客户需求，引进先进产品”，跟客户建立合作战略伙伴关系。

农药水乳剂（EW）液体原药或将溶解于水不溶性的有机溶剂中的固体原药在表面活性剂和外力作用下，在水中形成牛奶状的水包油型乳液，水乳剂是一种热力学不稳定体系。

∙水乳剂专用助剂：TERMUL 5030是亨斯迈针对水乳剂剂型特点而精心筛选开发的阴/非离子混合型乳化剂，合理的原料组成及配比使得TERMUL 5030可以单独作为乳化剂应用于水乳剂产品。

特别是对于拟除虫菊酯农药品种的水乳剂配方，TERMUL5030作为乳化剂显示出独特的配伍性能。

∙专用乳化剂---TERMUL 200：TERMUL 200是亨斯迈开发的烷基酚嵌段聚醚共聚型乳化剂，正式由于其结构的独特性以及亲水亲油基在长链中的合理分布，使得TERMUL 200作为乳化剂与TERMUL 2507、TERMUL1284、TERMUL 1285系列乳化剂配合应用于水乳剂产品，不但表现出良好的乳化性能及长贮稳定性能，而且显示出对多种农药原药品种的普遍适应性。

专用乳化剂---TERMUL 2507、TERMUL 1284、TERMUL 1285系列：TERMUL 2507、TERMUL 1284、TERMUL 1285系列乳化剂品种是含不同EO数的蓖麻油聚氧乙烯基醚乳化剂产品，可根据不同农药原药特性进行配伍选择，从而获得配方更加合理、性能更加稳定的水乳剂产品。

EW配方应用实例：农药水悬浮剂(SC)将水不溶性固体农药有效成分在润湿剂、分散剂、增稠剂、消泡剂、稳定剂及pH调节剂等助剂的作用下，在水中经湿法粉碎而形成的稳定的分散体系。

V1.200110地址：福建省泉州洛江塘西工业园琪祥电子大厦(362011)网址：琪祥电子科技有限公司Qixing Electron Science & Technology Co.,Ltd.使用说明书致用户欢迎选购Anytone自由通D578UV彩屏DMR数字车载对讲机，这款产品将为您提供可靠、清晰、高效的无线通信服务。

本产品采用专用的DMR数字信号处理系统,具有多种专业功能和极佳的稳定性、可靠性,集DMR数字通信和模拟通信于一身，外观新颖时尚、机身流畅线条简洁、坚固耐用。

具有 UU , UV, VV 和 VU同时双接收、短信息、数字录音、数字录音发送、全双工数字对讲、数字强拆、数字加密(AES)、紧急报警、数字/模拟APRS上报、测距、GPS定位/发送、跨段中继、数字同频中继、蓝牙以及模拟的DTMF、2TONE、5TONE、CTCSS/DCS编解码、扰频、压扩等功能。

是一款为无线电发烧友精心打造的多功能车载对讲机。

注意：编程对讲机时，先读出对讲机出厂原始数据，更改频率及信令等值后重新写入，否则容易出现因机型频段等不同引起的错误。

本手册适用机型：AT-D578UV、AT-D578UVPRO数字车载对讲机“ - ”表示无，“ ”表示有。

注意事项Anytone车载对讲机是具有优良设计和先进技术的产品。

下列建议将帮助您履行保修条款中的义务，了解和认识使用对讲机的安全性。

1.请将对讲机及所有部件和配件放在小孩接触不到的地方。

2.未经许可，请不要试图拆开、改造对讲机，非专业人员对对讲机的处理可能会造成损坏。

3.请使用本公司配套的天线，以免缩短通讯距离。

4.请不要用烈性化学制品，清洗剂清洗对讲机。

5.未安装天线，请不要发射。

6.推荐的对讲机使用率为发射1分钟，接收4分钟。

长时间发射或在高功率模式下连续使用将造成本机背面发热。

放置本机时，不得使后部接触塑料物体的表面。

7.如果使用时发现从车载对讲机发出异常气味或者烟雾，应立即关断对讲机的电源，并且取出对讲机电池，然后与当地的Anytone经销商联系。

4.3Other search units may be used for evaluating and pinpointing indications.5.Procedure5.1Perform the inspection in an area free of operations that interfere with proper performance of the test.5.2Unless otherwise specified,make the ultrasonic exami-nation on either major surface of the plate.5.3The plate surface shall be sufficiently clean and smooth to maintain afirst reflection from the opposite side of the plate at least50%of full scale during scanning.This may involve suitable means of scale removal at the manufacturer’s option. Condition local rough surfaces by grinding.Restore any specified identification which is removed when grinding to achieve proper surface smoothness.5.4Perform the test by one of the following methods:direct contact,immersion,or liquid column e a suitable couplant such as water,soluble oil,or glycerin.As a result of the test by this method,the surface of plates may be expected to have a residue of oil or rust or both.5.5A nominal test frequency of21⁄4MHz is recommended. When testing plates less than3⁄4in.[20mm]thick a frequency of5MHz may be necessary.Thickness,grain size or micro-structure of the material and nature of the equipment or method may require a higher or lower test e the trans-ducers at their rated frequency.A clean,easily interpreted trace pattern should be produced during the examination.5.6Scanning:5.6.1Scanning shall be along continuous perpendicular grid lines on nominal9-in.[225-mm]centers,or at the option of the manufacturer,shall be along continuous parallel paths,trans-verse to the major plate axis,on nominal4-in.[100-mm] centers,or shall be along continuous parallel paths parallel to the major plate axis,on3-in.[75-mm]or smaller centers. Measure the lines from the center or one corner of the plate with an additional path within2in.[50mm]of all edges of the plate on the searching surface.5.6.2Conduct the general scanning with an instrument adjustment that will produce afirst reflection from the opposite side of a sound area of the plate from50to90%of full scale. Minor sensitivity adjustments may be made to accommodate for surface roughness.5.6.3When a discontinuity condition is observed during general scanning adjust the instrument to produce afirst reflection from the opposite side of a sound area of the plate of 7565%of full scale.Maintain this instrument setting during evaluation of the discontinuity condition.6.Recording6.1Record all discontinuities causing complete loss of back reflection.6.2For plates3⁄4in.[20mm]thick and over,record all indications with amplitudes equal to or greater than50%of the initial back reflection and accompanied by a50%loss of back reflection.N OTE1—Indications occurring midway between the initial pulse and thefirst back reflection may cause a second reflection at the location of the first back reflection.When this condition is observed it shall be investi-gated additionally by use of multiple back reflections.6.3Where grid scanning is performed and recordable con-ditions as in6.1and6.2are detected along a given grid line,the entire surface area of the squares adjacent to this indication shall be scanned.Where parallel path scanning is performed and recordable conditions as in6.1and6.2are detected,the entire surface area of a9by9-in.[225by225-mm]square centered on this indication shall be scanned.The true bound-aries where these conditions exist shall be established in either method by the following technique:Move the transducer away from the center of the discontinuity until the height of the back reflection and discontinuity indications are equal.Mark the plate at a point equivalent to the center of the transducer. Repeat the operation to establish the boundary.7.Acceptance Standard—Level A7.1Any area where one or more discontinuities produce a continuous total loss of back reflection accompanied by con-tinuous indications on the same plane that cannot be encom-passed within a circle whose diameter is3in.[75mm]or1⁄2of the plate thickness,whichever is greater,is unacceptable. 8.Acceptance Standards—Level B8.1Any area where one or more discontinuities produce a continuous total loss of back reflection accompanied by con-tinuous indications on the same plane that cannot be encom-passed within a circle whose diameter is3in.[75mm]or1⁄2of the plate thickness,whichever is greater,is unacceptable. 8.2In addition,twoor more discontinuities smaller than described in8.1shall be unacceptable unless separated by a minimum distance equal to the greatest diameter of the larger discontinuity or unless they may be collectively encompassed by the circle described in8.1.9.Acceptance Standard—Level C9.1Any area where one or more discontinuities produce a continuous total loss of back reflection accompanied by con-tinous indications on the same plane that cannot be encom-passed within a1-in.[25-mm]diameter circle is unacceptable.10.Report10.1Unless otherwise agreed to by the purchaser and the manufacturer,the manufacturer shall report the following data: 10.1.1All recordable indications listed in Section6on a sketch of the plate with sufficient data to relate the geometry and identity of the sketch to those of the plate.10.1.2Test parameters including:Make and model of in-strument,test frequency,surface condition,transducer(type and frequency),and couplant.10.1.3Date of test.11.Inspection11.1The inspector representing the purchaser shall have access at all times,while work on the contract of the purchaser is being performed,to all parts of the manufacturer’s works that concern the ultrasonic testing of the material ordered.The manufacturer shall afford the inspector all reasonable facilities to satisfy him that the material is being furnished in accordance with this specification.All tests and inspections shall be made at the place of manufacture prior to shipment,unless otherwisespecified,and shall be conducted without interfering unneces-sarily with the manufacturer’s operations.12.Rehearing12.1The manufacturer reserves the right to discuss reject-able ultrasonically tested plate with the purchaser with the object of possible repair of the ultrasonically indicated defect before rejection of the plate.13.Marking13.1Plates accepted according to this specification shall be identified by stenciling(stamping)“UT A578—A”on one corner for Level A,“UT A578—B”for Level B,and“UT A 578—C”for Level C.The supplement number shall be added for each supplementary requirement ordered.14.Keywords14.1nondestructive testing;pressure containing parts;pres-sure vessel steels;steel plate for pressure vessel applications; steel plates;ultrasonic examinationsSUPPLEMENTARY REQUIREMENTSThese supplementary requirements shall apply only when individually specified by the purchaser. When details of these requirements are not covered herein,they are subject to agreement between the manufacturer and the purchaser.S1.ScanningS1.1Scanning shall be continuous over100%of the plate surface.S2.Acceptance StandardS2.1Any recordable condition listed in Section6that(1)is continuous,(2)is on the same plane(within5%of the plate thickness),and(3)cannot be encompassed by a3-in.[75-mm] diameter circle,is unacceptable.Two or more recordable conditions(see Section5),that(1)are on the same plane (within5%of plate thickness),(2)individually can be encompassed by a3-in.[75-mm]diameter circle,(3)are separated from each other by a distance less than the greatest dimension of the smaller indication,and(4)collectively cannot be encompassed by a3-in.[75-mm]diameter circle,are unacceptable.S2.2An acceptance level more restrictive than Section7or 8shall be used by agreement between the manufacturer and purchaser.S3.ProcedureS3.1The manufacturer shall provide a written procedure in accordance with this specification.S4.CertificationS4.1The manufacturer shall provide a written certification of the ultrasonic test operator’s qualifications.S5.Surface FinishS5.1The surfacefinish of the plate shall be conditioned to a maximum125µin.[3µm]AA(see ANSI B46.1)prior to test. S6.Examination of Integrally Bonded Clad Plate, Acceptance Level S6S6.1Examine the plate from the clad surface using proce-dures and techniques in accordance with this specification.S6.2Inspect the backing steel to Level B or,if specifically requested by customer,to Level A or Level C.S6.3The cladding shall be interpreted to be unbonded when there is complete loss of back reflection accompanied by an echo indication from the plane of the interface of the clad and backing steel.S6.4Unless otherwise specified,indications of unbond determined in accordance with S6.3that cannot be encom-passed within a3-in.[75-mm]diameter circle shall be weld repaired subject to therequirements and limitations for the repair of defects in cladding of the appropriate material specification.S6.5This supplementary requirement is applicable to Speci-fications A263,A264,and A265.S7.Examination of Integrally Bonded Clad Plate, Acceptance Level S7S7.1The plate shall be examined from the clad surface using procedures and techniques according to this specification except100%surface search is mandatory.S7.2Inspect the backing steel to Level B or,if specifically requested by customer,to Level A or Level C.S7.3The cladding shall be interpreted to be unbonded when there is complete loss of back reflection accompanied by an echo indication from the plane of the interface of the clad and backing steel.S7.4Unless otherwise specified,indications of unbond determined in accordance with S7.3that cannot be encom-passed within a1-in.[25-mm]diameter circle shall be weld repaired subject to the requirements and limitations for the repair of defects in cladding of the appropriate material specification.Additionally,prior approval must be obtained if the weld repaired surface exceeds 1.5%of the cladding surface.S7.5This supplementary requirement is applicable to Speci-fications A263,A264,and A265.S8.Ultrasonic Examination Using Flat Bottom Hole Calibration(for Plates4in.[100mm]Thick andGreater)S8.1Use the following calibration and recording proceduresin place of 5.6.2,5.6.3,and Section 6.S8.2The transducer shall be in accordance with 4.2.S8.3Reference Reflectors —The T /4,T /2,and 3T /4deep flatbottom holes shall be used to calibrate the equipment.The flatbottom hole diameter shall be in accordance with Table S8.1.The holes may be drilled in the plate to be examined if they canbe located without interfering with the use of the plate,in aprolongation of the plate to be examined,or in a referenceblock of the same nominal composition,and thermal treatmentas the plate to be examined.The surface of the reference blockshall be no better to the unaided eye than the plate surface tobe examined.The reference block shall be of the same nominalthickness (within 75to 125%or 1in.[25mm]of the examinedplate,whichever is less)and shall have acoustical propertiessimilar to the examined plate.Acoustical similarity is pre-sumed when,without a change in instrument setting,compari-son of the back reflection signals between the reference blockand the examined plate shows a variation of 25%or less.S8.4Calibration Procedure:S8.4.1Couple and position the search unit for maximumamplitudes from the reflectors at T /4,T /2,and 3T /4.Set theinstrument to produce a 7565%of full scale indication fromthe reflector giving the highest amplitude.S8.4.2Without changing the instrument setting,couple andposition the search unit over each of the holes and mark on thescreen the maximum amplitude from each hole and eachminimum remaining back reflection.S8.4.3Mark on the screen half the vertical distance from thesweep line to each maximum amplitude hole mark.Connectthe maximum amplitude hole marks and extend the linethrough the thickness for the 100%DAC (distance amplitudecorrection curve).Similarly connect and extend the halfmaximum amplitude marks for the 50%DAC.S8.5Recording:S8.5.1Record all areas where the remaining back reflectionis smaller than the highest of the minimum remaining backreflections found in S 8.4.2.S8.5.2Record all areas where indications exceed 50%DAC.S8.5.3Where recordable conditions listed in S 8.5.1and S8.5.2are detected along a given grid line,continuously scan theentire surface area of the squares adjacent to the condition andrecord the boundaries or extent of each recordable condition.S8.6Scanning shall be in accordance with 5.6.S8.7The acceptance levels of Section 7or 8shall apply asspecified by the purchaser except that the recordable conditionshall be as given in S 8.5.S9.Ultrasonic Examination of Electroslag Remelted (ESR)and Vacuum-Arc Remelted (V AR)Plates,from 1to 16in.[25to 400mm]in Thickness,Using Flat-Bottom Hole Calibration and Distance-Amplitude Corrections S9.1The material to be examined must have a surface finish of 200µin.[5µm]as maximum for plates up to 8in.[200mm]thick,inclusive,and 250µin.[6µm]as maximum for plates over 8to 16in.[200to 400mm]thick.S9.2Use the following procedures in place of 5.6.1,5.6.2,5.6.3,and Section 6.S9.3The transducer shall be in accordance with 4.2.S9.4Reference Reflectors —The T /4,T /2,and 3T /4deep flat bottom holes shall be used to calibrate the equipment.The flat bottom hole diameter shall be in accordance with Table S9.1.The flat bottoms of the holes shall be within 1°of parallel to the examination surface.The holes may be drilled in the plate to be examined if they can be located without interfering with the use of the plate,in a prolongation of the plate to be examined,or in a reference block of the same nominal composition and thermal treatment as the plate to be examined.The surface of the reference block shall be no better to the unaided eye than the plate surface to be examined.The reference block shall be of the same nominal thickness (within 75to 125%or 1in.[25mm]of the examined plate,whichever is less)and shall have acoustical properties similar to the examined plate.Acoustical similarity is presumed when,without a change in instrumentS9.6Scanning —Scanning shall cover 100%of one major plate surface,with the search unit being indexed between each pass such that there is at least 15%overlap of adjoining passes in order to assure adequate coverage for locating discontinui-ties.S9.7Recording—Record all areas where the back reflectionTABLE S8.1Calibration Hole Diameter as a Function of PlateThickness (S8)Plate Thickness,in.[mm]4–6[100–150]>6–9[>150–225]>9–12[>225–300]>12–20[>300–500]Hole Diameter,in.[mm]5/8[16]3/4[19]7/8[22]11/8[29]drops below the 50%DAC.If the drop in back reflection is notaccompanied by other indications on the screen,reconditionthe surface in the area and reexamine ultrasonically.If the backreflection is still below 50%DAC,the loss may be due to themetallurgical structure of the material being examined.Thematerial shall be held for metallurgical review by the purchaserand manufacturer.S9.8Acceptance Standards—Any indication that exceeds the 100%DAC shall be considered unacceptable.The manu-facturer may reserve the right to discuss rejectable ultrasoni-cally examined material with the purchaser,the object being the possible repair of the ultrasonically indicated defect before rejection of the plate.The American Society for Testing and Materials takes no position respecting the validity of any patent rights asserted in connection with any item mentioned in this ers of this standard are expressly advised that determination of the validity of any such patent rights,and the risk of infringement of such rights,are entirely their own responsibility.This standard is subject to revision at any time by the responsible technical committee and must be reviewed every five years and if not revised,either reapproved or withdrawn.Your comments are invited either for revision of this standard or for additional standards and should be addressed to ASTM Headquarters.Your comments will receive careful consideration at a meeting of the responsible technical committee,which you may attend.If you feel that your comments have not received a fair hearing you should make your views known to the ASTM Committee on Standards,at the address shown below.This standard is copyrighted by ASTM,100Barr Harbor Drive,PO Box C700,West Conshohocken,PA 19428-2959,United States.Individual reprints (single or multiple copies)of this standard may be obtained by contacting ASTM at the above address or at 610-832-9585(phone),610-832-9555(fax),or service@ (e-mail);or through the ASTM website().。

常用的水分散粒剂助剂性能特点（wgwin系列）深圳市朗钛生物科技有限公司是一家专业的农药制剂研发公司，拥有专业的农药水分散粒剂研究专家和小试、中试设备，已经研制出300多种水分散粒剂配方。

为了解决企业配方研究难题，朗钛公司推出了水分散粒剂系列助剂（wgwin、达润、ProDis系列）。

目前上市的水分散粒剂系列助剂有两大系列：专用助剂和通用助剂。

一．水分散粒剂专用助剂系列：是针对具体的、特定农药品种量身打造的，助剂中已经含有崩解剂、润湿剂、分散剂、助悬剂和填料等。

目前推出的专用助剂有四十余种。

重点助剂有：5.7%甲维盐水分散粒剂助剂50%吡蚜酮水分散粒剂助剂25%噻虫嗪水分散粒剂助剂70%啶虫脒水分散粒剂助剂80%烯酰吗啉水分散粒剂助剂10%苯醚甲环唑水分散粒剂助剂37%苯醚甲环唑水分散粒剂助剂70%吡虫啉水分散粒剂助剂80%嘧霉胺水分散粒剂助剂……每种助剂都是在实验室里反复试用研究得到，并经过中试试验成功验证。

朗钛达润专用助剂使用非常简单：有效成分加上朗钛专用助剂，无需添加其它助剂，使复杂的配方研究工作简单化，企业只要使用专用助剂即可生产出高质量的水分散粒剂产品。

二．水分散粒剂通用助剂系列（达润、wgwin、ProDis），高悬浮率、快速崩解型助剂可用于多种水分散粒剂配方中。

朗钛达润水分散粒剂助剂分为润湿剂、分散剂、崩解剂、润湿分散剂、助悬剂、专用填料等。

深圳朗钛公司通过对300多个水分散粒剂配方的潜心研究，得到应用范围广泛的功能性助剂，可取代进口助剂，用于多种水分散粒剂配方中，并大幅度降低配方成本。

使用通用助剂，减少了研发人员筛选助剂的时间，最快时间内得到理想的结果。

对于客户在使用水分散粒剂助剂遇到的技术问题，能得到深圳朗钛公司及时的解答和帮助，朗钛公司可以为客户提供标准化的水分散粒剂配方。

朗钛公司还协助众多的企业建立了水分散粒剂生产线。

三、朗钛推荐用户以下朗钛达润水分散粒剂助剂：达润TopDis Q303（水分散粒剂高悬浮率、快速崩解助剂）：朗钛达润TopDis Q303是提高水分散粒剂悬浮率、快速崩解、分散助剂，可应用于农药杀菌剂、杀虫剂、除草剂等水分散粒剂配方中，性能卓越。

分散剂介绍分散剂是一种在分子内同时具有亲油性和亲水性两种相反性质的界面活性剂。

可均一分散那些难于溶解于液体的无机，有机颜料的固体颗粒，同时也能防止固体颗粒的沉降和凝聚，形成安定悬浮液所需的药剂。

解释工具书中的解释促使物料颗粒均匀分散于介质中,形成稳定悬浮体的药剂。

分散剂一般分为无机分散剂和有机分散剂两大类。

常用的无机分散剂有硅酸盐类(例如水玻璃)和碱金属磷酸盐类(例如三聚磷酸钠、六偏磷酸钠和焦磷酸钠等)。

有机分散剂包括三乙基己基磷酸、十二烷基硫酸钠、甲基戊醇、纤维素衍生物、聚丙烯酰胺、古尔胶、脂肪酸聚乙二醇酯等。

学术文献中的解释分散剂的定义是分散剂能降低分散体系中固体或液体粒子聚集的物质。

在制备乳油和可湿性粉剂时加入分散剂和悬浮剂易于形成分散液和悬浮液，并且保持分散体系的相对稳定的功能。

化工词典中的解释能提高和改善固体或液体物料分散性能的助剂。

固体染料研磨时，加入分散剂，有助于颗粒粉碎并阻止已碎颗粒凝聚而保持分散体稳定。

不溶于水的油性液体在高剪切力搅拌下，可分散成很小的液珠，停搅拌后，在界面张力的作用下很快分层，而加入分散剂后搅拌，则能形成稳定的乳浊液。

其主要作用是降低液-液和固-液间的界面张力。

因而分散剂也是表面活性剂。

种类有阴离子型、阳离子型、非离子型、两性型和高分子型。

阴离子型用得最多。

分散剂的选择一个优良的分散剂应满足以下要求：1、分散性能好，防止填料粒子之间相互聚集；2、与树脂、填料有适当的相容性；热稳定性良好；3、成型加工时的流动性好；不引起颜色飘移；4、不影响制品的性能；无毒、价廉。

分散剂的用量一般为母料质量的５％分散剂的种类脂肪酸类、脂肪族酰胺类和酯类硬脂酰胺与高级醇并用，可改善润滑性和热稳定性，用量（质量分数，下同）０.３％-０.８％，还可作聚烯烃的滑爽剂；己烯基双硬脂酰胺，也称乙撑基双硬脂酰胺（ＥＢＳ），是一种高熔点润滑剂，用量为０.５％～２％；硬脂酸单甘油酯（ＧＭＳ），三硬脂酸甘油酯（ＨＴＧ）；油酸酰用量０．２％～０.５％；烃类石蜡固体，熔点为５７～７０℃，不溶于水，溶于有机溶剂，树脂中的分散性、相容性、热稳定性均差，用量一般在０.５％以下石蜡类尽管石蜡属于外润滑剂，但为非极性直链烃，不能润湿金属表面，也就是说不能阻止聚氯乙烯等树脂粘连金属壁，只有和硬脂酸、硬脂酸钙等并用时，才能发挥协同效应液体石蜡：凝固点－１５￣－３５℃，在挤出和注射成型加工时，与树脂的相容性较差，添加量一般为０.３％-０.５％，过多时，反而使加工性能变坏微晶石蜡：由石油炼制过程中得到，其相对分子质量较大，且有许多异构体，熔点６５-９０℃，润滑性和热稳定性好，但分散性较差，用量一般为０.１％-０.２％，最好与硬脂酸丁酯、高级脂肪酸并用。

化学品安全技术说明书1. . 化学品及企业标识化学品及企业标识产品名NYETACT 578H-2产品编号NYETACT 578H-2Nye Lubricants, Inc.制造商或供应商12 Howland RoadFairhaven, MA 02719地址美国无资料。

电话号码508-996-6721联系人电子邮件无资料。

紧急情况电话号码美国化学品运输紧急应变中心(CHEMTREC)1-800-424-9300建议用途及限制使用无资料。

发布日期09-16-2011填表时间07-11-2014替代日期09-16-20112. . 危险性概述危险性概述GHS GHS分类分类未被分类。

物理危险第5类 (混合物的99.96%由毒性未知的组分组成。

)急性毒性(食入)健康危险未被分类。

环境危险GHS GHS标记标记无。

符 号警示词警告危险性说明吞咽可能有害。

防范说明预防措施遵守良好工业卫生习惯。

事故响应如感觉不适，呼叫解毒中心或医生。

安全储存远离禁忌物保存。

废弃处置根据当地管理部门的要求对废弃物和残余物进行处理。

其它危险未知。

3. . 成分成分成分//组成信息纯物质或混合物混合物4. . 急救措施急救措施吸入若中毒者停止呼吸，应施行人工呼吸。

如果症状加重， 将受害人从接触源移动到新鲜空气中。

请马上就医。

皮肤接触用肥皂和水冲洗。

如症状出现，就医。

在重新使用该衣物之前要单独地洗涤。

眼睛接触立刻用大量的水冲洗眼睛至少15分钟。

请马上就医。

食入请马上就医。

没有医生的建议。

不要引发呕吐。

若发生自然呕吐，让中毒者身体前倾，以减少吸入呕吐物的危险。

如感觉不适，呼叫解毒中心或医生。

漱口。

不要用嘴给无知觉或痉挛的患者餵食。

急性和迟发效应直接接触可引起眼部暂时刺激。

急救人员的个体防护一旦发生事故或您感觉不适，立即就医（可能的话出示此标签）。

务必让医务人员知道所涉及的物质，并采取防护措施以保护他们自己。

对医生的特别提示提供一般支持措施，并根据症状进行治疗。