05 润英联M7280-MSDS中文介绍

方法8270 D气质联用仪测试半挥发性有机化合物技术翻译：刘金云 mail:piery2006@1.0范围及应用1.1方法 8270 用于测定多种类型的固体废弃物基体、土壤、空气取样媒介及水样制备的萃取物中的半挥发性有机化合物的浓度.直接注入样品的使用范围是有限的.以下的化合物可以通过此方法测试.合适的前置处理技术b 化合物 CAS编号a3510 35203540/3541 35503580 苊 83-32-9 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 苊嵌戊烯 208-96-8 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ乙酰苯 98-86-2 Ⅹ ND ND ND Ⅹ 2-乙酰氨基芴 53-96-3 Ⅹ ND ND ND Ⅹ 1-乙酰基-2-硫脲 591-08-2 LR ND ND ND LR 艾氏剂 309-00-2 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 氨基蒽醌 117-79-3 Ⅹ ND ND ND Ⅹ 氨基偶氮苯 60-09-3 Ⅹ ND ND ND Ⅹ 4-氨基联苯 92-67-1 Ⅹ ND ND ND Ⅹ 3-氨基-9-乙基咔唑 132-32-1 Ⅹ Ⅹ ND ND ND 敌菌灵 101-05-3 Ⅹ ND ND ND Ⅹ苯胺 62-53-3 Ⅹ Ⅹ ND Ⅹ Ⅹ茴香胺 90-04-0 Ⅹ ND ND ND Ⅹ 蒽 120-12-7 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 异黄樟 140-57-8 H S（43）ND ND ND Ⅹ 氯化联二苯树脂101612674-11-2 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 氯化联二苯树脂122111104-28-2 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 氯化联二苯树脂123211141-16-5 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 氯化联二苯树脂124253469-21-9 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 氯化联二苯树脂124812672-29-6 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 氯化联二苯树脂125411097-69-1 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 氯化联二苯树脂126011096-82-5 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 谷硫磷 86-50-0 H S（62）ND ND ND Ⅹ 氯炔草灵 101-27-9 LR ND ND ND LR联苯胺 92-87-5 CP CP CP CP CP苯甲酸 65-85-0 X X ND X X合适的前置处理技术 b 化合物 CAS编号a3510 35203540/3541 35503580 苯并蒽 56-55-3 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 苯并（b）荧蒽 205-99-2 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 苯并（k）荧蒽 207-08-9 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 苯并（g,h,i）茈 191-24-2 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 苯并（a）芘 50-32-8 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ p-苯醌 106-51-4 OE ND ND ND X苯甲醇 100-51-6 Ⅹ Ⅹ ND Ⅹ Ⅹ α-六氯化苯 319-84-6 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ β-六氯化苯 319-85-7 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ δ-六氯化苯 319-86-8 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ γ-六氯化苯（林旦）58-89-9 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 双（2-氯乙氧基）甲烷111-91-1 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 双(2-氯乙基）醚 111-44-4 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 双（2-氯异丙基）醚108-60-1 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 双（2-氯乙基己基）邻苯二甲酸酯117-81-7 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 4-溴苯基苯醚 101-55-3 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 溴苯腈 1689-84-5 Ⅹ ND ND ND Ⅹ 邻苯二甲酸丁基·苄基酯85-68-7 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 敌菌丹 2425-06-1 H S（55）ND ND ND Ⅹ克菌丹 133-06-2 H S（40）ND ND ND Ⅹ甲萘威 63-25-2 Ⅹ ND ND ND Ⅹ呋喃丹 1563-66-2 Ⅹ ND ND ND Ⅹ二硫磷 786-19-6 Ⅹ ND ND ND Ⅹ 氯丹（NOS） 57-74-9 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 毒虫威 470-90-6 Ⅹ ND ND ND Ⅹ 4-氯苯胺 106-47-8 Ⅹ ND ND ND Ⅹ 乙酯杀螨醇 510-15-6 Ⅹ ND ND ND Ⅹ 对氯邻氨基甲苯 95-79-4 Ⅹ ND ND ND Ⅹ 4-氯-3-甲苯酚 59-50-7 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 3-（氯甲苯）吡啶盐6959-48-4 Ⅹ ND ND ND Ⅹ 酸盐1-氯代萘 90-13-1 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 2-氯代萘 91-58-7 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 2-氯苯酚 95-57-8 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 4-氯-1,2-苯二胺 95-83-0 Ⅹ Ⅹ ND ND ND 4-氯-1,3-苯二胺 5131-60-2 Ⅹ Ⅹ ND ND ND 4-氯苯基苯醚 7005-72-3 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ合适的前置处理技术 b 化合物 CAS编号a3510 35203540/3541 35503580 1,2-苯并菲 218-01-9 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 香豆磷 56-72-4 Ⅹ ND ND ND Ⅹ 甲酚定 120-71-8 Ⅹ ND ND ND Ⅹ 丁烯磷 7700-17-6 Ⅹ ND ND ND Ⅹ 2-环己烯-4,6-二硝基-苯酚131-89-5 Ⅹ ND ND ND LR 4,4-DDD 72-54-8 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 4,4-DDE 72-55-9 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 4,4-DDT 50-29-3 Ⅹ Ⅹ Ⅹ Ⅹ X O-异内吸磷 298-03-3 H S（68）ND ND ND Ⅹ S-异内吸磷 126-75-0 Ⅹ ND ND ND Ⅹ 燕麦敌（顺式或反式）2303-16-4 Ⅹ ND ND ND Ⅹ 2,4-二氨基甲苯 95-80-7 D C,0E（42）ND ND ND Ⅹ 二苯并（a,j）吖啶 224-42-0 ⅩND ND NDⅩ二苯并（a,h）蒽 53-70-3 ⅩⅩⅩⅩⅩ二苯并呋喃 132-64-9 ⅩⅩNDⅩⅩ二苯并（a,e）芘 192-65-4 ND ND ND NDⅩ1，2-溴-3-氯丙烷 96-12-8 ⅩⅩND ND ND 苯二甲酸-n-二丁酯 84-74-2 ⅩⅩⅩⅩⅩ二氯萘醌 117-80-6 OE ND ND NDⅩ1,2-二氯代苯 95-50-1 ⅩⅩⅩⅩⅩ1,3-二氯代苯 541-73-1 ⅩⅩⅩⅩⅩ1,4-二氯代苯 106-46-7 ⅩⅩⅩⅩⅩ3,3-二氯联苯胺 91-94-1 ⅩⅩⅩⅩⅩ2,4-二氯苯酚 120-83-2 ⅩⅩⅩⅩⅩ2,6-二氯苯酚 87-65-0 ⅩND ND NDⅩ敌敌畏 62-73-7 ⅩND ND NDⅩ百治磷 141-66-2 ⅩND ND NDⅩ狄氏剂 60-57-1 ⅩⅩⅩⅩⅩ酞酸二乙酯 84-66-2 ⅩⅩⅩⅩⅩ乙烯雌酚 56-53-1 AW，ND ND NDⅩ0S（67）硫酸二乙酯 64-67-5 LR ND ND ND LR 乐果 60-51-5 H E，ND ND NDⅩH S（31）3，3`-二甲氨基联苯氨 119-90-4 ⅩND ND ND LR 二甲氨基偶氮苯 60-11-7 ⅩND ND ND X 7,12甲基苯并（a）蒽 57-97-6 C P（45）ND ND ND CP合适的前置处理技术b 化合物 CAS编号a351035203540/3541 35503580 3,3`-二甲基联苯胺 119-93-7 Ⅹ ND ND ND Ⅹ α,α-二甲基苯乙胺 122-09-8 ND ND ND ND Ⅹ 2,4-二甲苯酚 105-67-9 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 苯二甲酸二甲酯 131-11-3 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 1,2-二硝基苯 528-29-0 Ⅹ ND ND ND X 1,3-二硝基苯 99-65-0 Ⅹ ND ND ND Ⅹ 1,4二硝基苯 100-25-4 H E（14）ND ND ND Ⅹ 4,6-二硝基-2-甲酚 534-52-1 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 2,4-二硝基苯酚 51-28-5 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 2,4-二硝基甲苯 121-14-2 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 2,6二硝基甲苯 606-20-2 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 敌螨普 39300-45-3 CP，HS ND ND ND CP（28）二硝丁酚 88-85-7 Ⅹ ND ND ND Ⅹ 二苯胺 122-39-4 Ⅹ Ⅹ X Ⅹ Ⅹ 苯妥英 57-41-0 X ND ND ND Ⅹ 1,2-二苯肼 122-66-7 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 磷酸-n-二辛酯 117-84-0 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 乙拌磷 298-04-4 X ND ND ND Ⅹ 硫丹Ⅰ 959-98-8 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 硫丹Ⅱ 33213-65-9 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 硫酸硫丹 1031-07-8 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 异狄氏剂 72-20-8 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 异狄氏剂醛 7421-93-4 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 异狄氏剂酮 53494-70-5 Ⅹ X ND X Ⅹ 苯硫磷 2104-64-5 Ⅹ ND ND ND Ⅹ 乙硫磷 563-12-2 Ⅹ ND ND ND Ⅹ 氨基甲酸乙酯 51-79-6 D C（28）ND ND ND Ⅹ 乙基甲磺酸 62-50-0 Ⅹ ND ND ND Ⅹ 氨磺磷 52-85-7 Ⅹ ND ND ND Ⅹ 丰索磷 115-90-2 Ⅹ ND ND ND Ⅹ 倍硫磷 55-38-9 Ⅹ ND ND ND Ⅹ 氯氟灵 33245-39-5 Ⅹ ND ND ND Ⅹ荧蒽 206-44-0 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ芴 86-73-7 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 2-氟（代）联苯 321-60-8 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 2-氟（代）苯酚 367-12-4 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ合适的前置处理技术b 化合物 CAS编号a351035203540/3541 35503580 七氯化茚 76-44-8 X X X X X 七氯环氧化物 1024-57-3 X X X X X 六氯化苯 118-74-1 X X X X X 六氯丁二烯 87-68-3 X X X X X 六氯环戊二烯 77-47-4 X X X X X 六氯乙烷 67-72-1 X X X X X六氯酚 70-30-4 A W，ND ND ND CPC P（62）六氯丙烯 1888-71-7 X ND ND ND X 六甲基磷酸三酰胺 680-31-9 X ND ND ND X 对苯二酚 123-31-9 ND ND ND ND X 茚并（1，2，3-cd）芘 193-39-5 X X X X X 异艾氏剂 465-73-6 X ND ND ND X 异佛尔酮 78-59-1 X X X X X 异黄樟素 120-58-1 D C（46）ND ND ND X十氯酮 143-50-0 X ND ND ND X溴苯磷 21609-90-5 X ND ND ND X 马拉硫磷 121-75-5 HS（5）ND ND ND X 顺丁烯二酸酐 108-31-6 HE ND ND ND X 炔雌醇甲醚 72-33-3 X ND ND ND X 噻吩甲吡胺 91-80-5 X ND ND ND X 甲氧氯 72-43-5 X ND ND ND X 甲基胆蒽 56-49-5 X ND ND ND X 4,4`-亚甲基双 101-14-4 O E，O S ND ND ND LR （-2氯苯胺） （0）4,4`-亚甲基双 101-61-1 X X ND ND ND （N,N-二甲基-苯胺）甲基甲磺酸 66-27-3 X ND ND ND X 2-甲基萘 91-57-6 X X ND X X 甲基对硫磷 298-00-0 X ND ND ND X 2-甲苯酚 95-48-7 X ND ND ND X 3-甲苯酚 108-39-4 X ND ND ND X 4-甲苯酚 106-44-5 X ND ND ND X速灭磷 7786-34-7 X ND ND ND X兹克威 315-18-4 H E，H S ND ND ND X（68）灭蚁灵 2385-85-5 X ND ND ND X久效磷 6923-22-4 HE ND ND ND X合适的前置处理技术b 化合物 CAS编号a351035203540/3541 35503580 二溴磷 300-76-5 Ⅹ ND ND ND Ⅹ 萘 91-20-3 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ萘醌 130-15-4 Ⅹ ND ND ND Ⅹ1-萘胺 134-32-7 O S（44）ND ND ND Ⅹ2-萘胺 91-59-8 Ⅹ ND ND ND Ⅹ烟碱 54-11-5 D E（67）ND ND ND X 5-硝基苊 602-87-9 Ⅹ ND ND ND Ⅹ 2-硝基苯胺 88-74-4 Ⅹ Ⅹ ND Ⅹ Ⅹ 3-硝基苯胺 99-09-2 Ⅹ Ⅹ ND Ⅹ Ⅹ 4-硝基苯胺 100-01-6 Ⅹ Ⅹ ND Ⅹ Ⅹ 2-甲氧基-5-硝基苯胺 99-59-2 Ⅹ ND ND ND Ⅹ 硝基苯 98-95-3 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 4-硝基联苯 92-93-3 Ⅹ ND ND ND Ⅹ 除草醚 1836-75-5 Ⅹ ND ND ND Ⅹ 2-硝基苯酚 88-75-5 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 4-硝基苯酚 100-02-7 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 5-硝基-2-甲苯胺 99-55-8 Ⅹ X ND ND Ⅹ 硝基硅啉-1-氧化物 56-57-5 Ⅹ ND ND ND Ⅹ N-亚硝基二丁胺 924-16-3 X ND ND ND Ⅹ N-亚硝基二乙胺 55-18-5 X ND ND ND Ⅹ N-亚硝基二甲胺 62-75-9 Ⅹ X X X Ⅹ N-亚硝基甲基乙胺 10595-95-6 Ⅹ ND ND ND Ⅹ N-亚硝基二苯胺 86-30-6 Ⅹ X X X Ⅹ N-亚硝基二丙胺 621-64-7 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 亚硝基吗啉 59-89-2 ND ND ND ND Ⅹ N-亚硝基呱啶 100-75-4 Ⅹ ND ND ND Ⅹ 亚硝基吡咯烷 930-55-2 Ⅹ ND ND ND Ⅹ 八甲基焦磷酰胺 152-16-9 LR ND ND ND LR 4,4`-羟基二苯胺 101-80-4 Ⅹ ND ND ND Ⅹ 对硫磷 56-38-2 Ⅹ X ND ND Ⅹ五氯苯 608-93-5 X ND ND ND X 五氯硝基苯 82-68-8 Ⅹ ND ND ND Ⅹ 五氯苯酚 87-86-5 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 非那西丁 62-44-2 Ⅹ ND ND NDⅩ 菲 85-01-8 Ⅹ Ⅹ X X X 菲巴比妥 50-06-6 Ⅹ ND ND ND Ⅹ 苯酚 108-95-2 D C（28）Ⅹ Ⅹ Ⅹ Ⅹ合适的前置处理技术b 化合物 CAS编号a3510 35203540/3541 35503580 1,4-苯二胺 106-50-3 Ⅹ ND ND ND Ⅹ 甲拌磷 298-02-2 Ⅹ Ⅹ Ⅹ Ⅹ Ⅹ 伏杀硫磷 2310-17-0 HS（65）ND ND ND Ⅹ 亚胺硫磷 732-11-6 HS（15）ND ND ND Ⅹ 磷胺 13171-21-6 H E（63）ND ND ND Ⅹ酞酐 85-44-9 C P,H E(1)ND ND ND CP 2-皮考啉（2-甲基吡啶）109-06-8 Ⅹ X ND ND ND 胡椒基亚砜 120-62-7 Ⅹ ND ND ND Ⅹ 拿草特 23950-58-5 Ⅹ ND ND ND Ⅹ 丙硫氧密啶 51-52-5 LR ND ND ND LR 芘 129-00-0 Ⅹ X X X Ⅹ 间苯二酚 108-46-3 DC,OE ND ND ND Ⅹ（10）Ⅹ 黄樟素 94-59-7 Ⅹ ND ND ND Ⅹ 番木鳖碱 57-24-9 AW,0S ND ND ND Ⅹ（55）菜草特 95-06-7 Ⅹ ND ND ND Ⅹ叔丁磷 13071-79-9 Ⅹ ND ND ND Ⅹ 1,2,4,5-四氯苯 95-94-3 X ND ND ND Ⅹ 2,3,4,6-四氯苯酚 58-90-2 X ND ND ND Ⅹ 杀虫畏 961-11-5 Ⅹ ND ND ND Ⅹ 四乙基二硫代焦磷酸3689-24-5 Ⅹ X ND ND ND 焦磷酸四乙酸酯 107-49-3 Ⅹ ND ND ND Ⅹ 硫磷嗪 297-97-2 Ⅹ ND ND ND Ⅹ 苯硫酚（硫酚） 108-98-5 X ND ND ND Ⅹ 甲苯二异氰酸酯 584-84-9 HE（6）ND ND ND Ⅹ 邻甲苯胺 95-53-4 Ⅹ ND ND ND Ⅹ毒杀芬 8001-35-2 X X X X X 1,2,3-三氯苯 120-82-1 Ⅹ X X X Ⅹ 2,4,5-三氯苯酚 95-95-4 Ⅹ X ND X Ⅹ 2,4,6-三氯苯酚 88-06-2 X X X X X 氟乐灵 1582-09-8 Ⅹ ND ND ND Ⅹ 2,4,5-三甲基苯胺 137-17-7 Ⅹ ND ND ND Ⅹ 磷酸三甲酯 512-56-1 H E（60）ND ND NDⅩ 1,3,5-三硝基苯 99-35-4 Ⅹ ND ND ND X 磷酸三（2,3-二溴丙基酯）126-72-7 Ⅹ ND ND ND LR合适的前置处理技术b 化合物 CAS编号a351035203540/3541 35503580 磷酸邻三甲苯酯 78-32-0 Ⅹ ND ND ND Ⅹ O,O,O-三乙基代磷酸酯126-68-1 Ⅹ ND ND ND Ⅹ a: CAS-化学文摘服务处.b: 其它可以接受的前置处理方法参见第1.2节.分析物目录要点:AW=在萃取和储存时,吸附到玻璃器皿内壁上.CP=不可重复的色谱性能DC=不理想的分布系数(括号中的数字为回收率百分数)HE=萃取时的水解作用在酸性或碱性条件的催化下加快(括号中的数字为回收率百分数).HS=储存时的水解作用(括号中的数字为稳定性百分率)LR=较低的回应ND=没有测试到OE=萃取时,在碱性条件的催化作用下氧化作用加快(括号中的数字为回收率百分数).OS=储存时被氧化(括号中的数字为稳定性百分率).X=通过此种技术回收率大于70%.1.2除了在以上的分析物目录中列出的样品制备方法外,方法3535描述的是一个固相萃取程序,可应用于从TCLP浸出液中(表16与表17中包含性能数据)提取半挥发性物质.方法3542描述的是气体中的半挥发性有机化合物的样品制备程序,气体是通过方法0010(表11中含有代用物的性能数据)取样的.方法3545描述的是利用溶剂从固体中自动萃取半挥发性物质的装置(表12包含有性能数据).方法3561描述的是从固体中萃取多环芳香烃类(PAHs)的超临界流体装置(见表格13,14,15中的性能数据). 1.3对于能溶解于二氯甲烷的中性、酸性和碱性有机化合物，且它们能够被洗脱，无需衍生化便可从气相色谱熔融二氧化硅毛细管柱(柱上涂有少量的极性硅酮)显现尖锐的峰，大多数这样的有机化合物可用方法8270来定量测试.这些化合物包括：多环芳香烃类(PAHs)、氯化烃类、农药、邻苯二甲酸酯类、有机磷酸酯类、亚硝胺类、卤代醚类、醛类、醚类、酮类、苯胺类、吡啶类、喹啉类、芳香族硝基化合物、酚类(包括硝基酚类)。

１、绝对最大定额4．微型模制插件的安装保证条件（１）、至基板焊接安装推荐条件１）请避开至主体急加热·急冷的情况。

２）预热温度为３）焊接（例：回流法）温度为（２）、焊接方法及温度保证５、出口状态 （１）、包装卷带构造 装入5卷 装只小箱 注： 5盘卷带竖着 小箱内装有 大箱内装有放入小箱内 5盘卷带 6只小箱敏科技有i n t e c h .c６、素子外形图深圳市钧敏科技有限公司w w w .j u n m i n t e c h .c o m8、载带外形图9、卷带外形图 [单位：ｍｍ] 深圳市钧敏科技有限公司w w w .j u n m i n t e c h .c o mSHANGHAI NICERA交货说明书10、共　７　页 第　７　页ＮＨＥ５２８Ｆ－ＨＦ重要注意事项１０－１．关于绝对最大使用规格的注意事项如果超过了规格极限值进行使用，产品会发生故障，请注意。

１０－２．保管上的注意事项请确认储存环境。

尤其是下列或类似情况可能导致外观损坏、特征缺陷和／或装配相关的劣化。

１０－２－１．长时间暴露在阳光直射、高温和高温的环境。

作为保管条件，在温度４０℃以下，湿度８０％以下的环境下，１０－２－２．使用。

长期的保管，存在质量劣化的风险，如可焊性等。

腐蚀性气体、有机性气体、以及酸性、碱性气体的环境１０－２－３．请在交货后１年以内１０－２－４．灰尘多的环境。

１０－３．使用上的注意事项请注意以下事项１０－３－１．请勿焚烧、销毁、压碎或化学分解本产品。

※特别是焚烧、酸、碱等反应，可能产生有毒气体，会对人体造成危险，所以请绝对禁止。

１０－３－２．本产品请不要入口。

１０－３－３．请根据相关法律和用户内部废物处置条例进行处理。

１０－４．静电注意事项处理本产品时，应确保人体使用静电手环等接地良好，设备、工具请正确地连接，避免发生静电积聚。

１０－５．关于保证范围的注意事项下述情况为保证范围外１０－５－１．当用户处理不当或使用不当时１０－５－２．交纳人以外被追加处理的场合１０－５－３．其他，天灾·灾害等，不符上海尼赛拉责任的场合此外，此处的保修范围是指更换产品本身。

Du line®Specifications are subject to change without notice (01.02.2007)1•8-channel transmitter•8 contact or NPN transistor inputs (G2120 5501) or 8voltage or PNP transistor inputs (G2120 5502)•Open printed circuit board•Bracket for DIN-rail mounting available•LED-indications for supply and Dupline ®carrier •DC or Dupline ®supplied•Channel coding by GAP 1605Product DescriptionDupline transmitter design -ed to be a part of the Dupline ®concept for push buttons and lamps in eleva-tors. I nstaller friendlymounting, operation andmaintenance without re -quire m ent of any special tools or programming.Type SelectionSupply Ordering no.Ordering no.8 contact or NPN transistor inputs 8 voltage or PNP transistor input 10-30 VDCG 2120 5501 700G 2120 5502 700Input Specifications Type G2120 5501Supply Specifications (cont.)Input-Module for ElevatorsCurrent consumption When Dupline supplied≤ 0.9 mA Transient protection voltage 800 V Insultation voltage:Supply - Dupline ®None Supply - OutputsNoneType G 2120 5501 700, G 2120 5502 700Input Specifications Type G2120 5502General SpecificationsSupply SpecificationsPower supply DC types Installation cat III (IEC 60664)Operational voltage (V DD In )10-30 VDC (ripple included)Ripple≤ 3 V Reverse polarity protection Yes Power dissipation ≤ 0.5 W Current consumption≤ 20 mAC H A N N E L P R O G R A M P L U GDup (Dupline S)GNDPow (Supply input)DC+I1I2I3I4I5I6I7I8S u p p l yL i n eDu line®2Specifications are subject to change without notice (01.02.2007)Mode of OperationConnect the DC supply volt-age to the system through a G 2196 000X 700 Master Module, which also performs the channel generator func-tion and the RS485 commu-nication link to the elevator controller (please refer to the data sheet for G2196.. for details).Every I nput is given its indi-vidual address with the cod-ing unit GAP 1605 (Please refer to the respective datasheet for details). TheON/OFF-signal that is applied to the input of the module is associated to the address given to that input. An input pulse stretcher (only G 2201 5501) is used on every input to assure that the changes of input signals (even extremely short ones)are communicated by the system.No LED indication for Supply and Line when Dupline ®sup-plied.Pin AllocationPin Dup Gnd Pow DC+I1I2I3I4I5I6I7I8Input/Output Dupline ®Signal Dup. + Supply GndSupply In DC Out Input 1Input 2Input 3Input 4Input 5Input 6Input 7Input 8Wiring DiagramsG 2120 550. 700AccessoriesAluminum bracket for DIN mounting (Vertical)8047-bracket PVC bracket forDIN mounting (Horisontal)ELEVAT -Bracket DIN-railFMD 411C H A N N E L P R O G R A M P L U GDup (Dupline S)GNDPow (Supply input)DC+I1I2I3I4I5I6I7I8S u p p l yL i n eG2120 5501G2120 5502。

各种光引发剂结构性能及用途各种光引发剂结构性TPO化学特性：化学名称：2, 4, 6,-三甲基苯甲酰基-二苯基氧化磷2, 4, 6-Trimethyl Benzoyl Diphenylphosphine Oxide 英文缩写：TPO 分子式：C22H21Po2分子量：348.5CAS No. 75980-60-8外观：淡黄色结晶粉末熔点:91. 0-940C吸收波长：273-370nm挥发份：＜0.2%酸值（mgKOH/g） : ＞4含量：＞99. 0%应用说明：TPO是一种高效的自由基（1）型光、在长波长范围内都有吸收的高效光引发剂。

由于其具有很宽的吸收范围，其有效吸收峰值为350-400nm, 一直吸收致420nm左右，它的吸收峰较常规引发剂偏长，经光照后可生成苯甲酰和磷酰基两个自由基，都能引发聚合，因此光固化速度快，它还具有光漂白作用，适合于厚膜深层固化和涂层不变黄的特性，具有低挥发，适用于水基。

本品多用于白色体系，可用于紫外固化涂料、印刷油墨、紫外固化粘合剂、光导纤维涂料、抗光蚀剂、光聚合印版、立体平版树脂、复合材料、牙齿填充料等。

本品的使用应根据实际实验的结果，建0. 5-4%w/wo议添加量为在可见光也有吸收，所以一定要避光保存和使用。

它在白色或高钛白粉颜料化表面均能完全固化。

涂层不黄变，后聚合效应低，无残留。

也可用于透明涂层，对于低气味要求的产品尤其适合。

在含苯乙烯体系的不饱和聚酯中单独使用，具有很高引发效能。

对于丙烯酸酯体系，尤其是有色的体系，通常需要和胺或丙烯酰胺配合使用，同时和其他光引发剂复配，以达到体系的彻底固化特别适用于低黄变、白色体系和厚的膜层的固化。

丝印油墨、平版印刷油墨、柔印油墨、木材涂层。

建议添加量0.5-3・0% （有色体系），0. 3-2. 0% （透明体系）。

UV 1173分子式：C10H120分子量：164.2化学名称：2-羟基-2-甲基-1-苯基-1-丙酮外观：无色或微黄色液体熔点：4C含量：〉98%沸点：80-81 r密度：l.08g/cin3特点及应用：1仃3适用于丙烯酸光固化清漆体系，如木材、金属、纸张、塑料等的清漆等。

19-06-27 14:25D a t e o f i s s u e 2019-06-27123524_e n g .x m l2-1+7-8+9+24 V DC14+15-ConnectionAssembly•1-channel isolated barrier •24 V DC supply (Power Rail)•Current output up to 700Ω load •HART I/P and valve positioner •Line fault detection (LFD)•Accuracy 0.05 %•Terminal blocks with test sockets •Up to SIL 2 acc.to IEC 61508FunctionThis isolated barrier is used for intrinsic safety applications. It drives SMART I/P converters, electrical valves, and positioners in hazardous areas.Digital signals are superimposed on the analog values at the field or control side and are transferred bi-directionally.Current transferred across the DC/DC converter is repeated at terminals 1 and 2.An open and shorted field circuit presents a high inputimpedance to the control side to allow line fault detection by control system.If the loop resistance for the digital communication is too low, an internal resistor of 250Ω between terminals 8 and 9 is available, which may be used as the HART communication resistor.Sockets for the connection of a HART communicator are integrated into the terminals of the device.A unique collective error messaging feature is available when used with the Power Rail system.2Features19-06-27 14:25D a t e o f i s s u e 2019-06-27123524_e n g .x mlGeneral specifications Signal typeAnalog output Functional safety related parameters Safety Integrity Level (SIL) SIL 2Supply Connection Power Rail or terminals 14+, 15-Rated voltage U r20 ... 35 V DCRipplewithin the supply tolerancePower dissipation 0.8 W at 20 mA into 10 V (equivalent to 500 Ω) load Power consumption 1 W at 20 mA InputConnection side control sideConnection terminals 7-, 8+, (9+)Voltage drop approx. 4 V or internal resistance 200 Ω at 20 mAInput resistance > 100 k Ω, when wiring resistance in the field > 16 V (equivalent to 800 Ω at 20 mA)Current 4 ... 20 mA limited to approx. 25 mA OutputConnection side field side Connection terminals 1+, 2-Current 4 ... 20 mA Load 100 ... 700 ΩVoltage≥ 14 V at 20 mATransfer characteristicsAccuracy 0.05 %DeviationAfter calibrationat 20 °C (68 °F): ≤ 10 µA incl. non-linearity, calibration, hysteresis, supply and load changes Influence of ambient temperature ≤ 1 µA/KRise time< 100 µs , 10 ... 90 % step changeGalvanic isolation Input/power supply functional insulation, rated insulation voltage 50 V AC Indicators/settings Display elements LEDs Control elements DIP-switchConfiguration via DIP switchesLabelingspace for labeling at the front Directive conformity Electromagnetic compatibilityDirective 2014/30/EU EN 61326-1:2013 (industrial locations)ConformityElectromagnetic compatibility NE 21:2011Degree of protectionIEC 60529:2001Protection against electrical shock UL 61010-1:2004Ambient conditions Ambient temperature -20 ... 60 °C (-4 ... 140 °F)Mechanical specifications Degree of protectionIP20Connection screw terminals Mass approx. 150 gDimensions 20 x 124 x 115 mm (0.8 x 4.9 x 4.5 inch) , housing type B2Mountingon 35 mm DIN mounting rail acc. to EN 60715:2001Data for application in connection with hazardous areas EU-type examination certificate BAS 00 ATEX 7240Marking ¬ II (1)G [Ex ia Ga] IIC , ¬ II (1)D [Ex ia Da] IIIC , ¬ I (M1) [Ex ia Ma] I Output[Ex ia Ga] IIC, [Ex ia Da] IIIC, [Ex ia Ma] I Voltage U o 25.2 V Current I o 93 mA Power P o 585 mWSupplyMaximum safe voltage U m250 V rms (Attention! The rated voltage can be lower.)Type of protection [EEx ia]Input19-06-27 14:25D a t e o f i s s u e 2019-06-27123524_e n g .x mlGalvanic isolationInput/Output safe electrical isolation acc. to IEC/EN 60079-11, voltage peak value 375 V Output/power supply safe electrical isolation acc. to IEC/EN 60079-11, voltage peak value 375 V Directive conformityDirective 2014/34/EU EN 60079-0:2012+A11:2013 , EN 60079-11:2012 , EN 60079-15:2010International approvals UL approvalControl drawing 116-0173 (cULus)IECEx approval IECEx BAS 04.0014Approved for [Zone 0] [Ex ia] IIC, [Ex iaD], [Ex ia] IGeneral information Supplementary information Observe the certificates, declarations of conformity, instruction manuals, and manuals where applicable. For information see .Accessories Optional accessories- power feed module KFD2-EB2(.R4A.B)(.SP) - universal power rail UPR-03(-M)(-S) - profile rail K-DUCT-BU(-UPR-03)19-06-27 14:25D a t e o f i s s u e 2019-06-27123524_e n g .x mlLead monitoring, input characteristicsDuring lead breakage (>16V) in the field the input resistance is >100k Ω, the field current is <1mA and the red LED is flashing.During short circuit (<50Ω) in the field the input resistance is approx.20k Ω, the input current and the field current are approx.1mA and the red LED is flashing.The voltage drop at the current input (terminals 7-, 8+) is lower than 4V. Thus, it corresponds to an input resistance of 200Ω at 20mA. The AC input impedance corresponds to the load impedance of the unit.Adjustment SMART functionWhen using positioners, which do not meet the HART standard, set the switches to the 1 position (without SMART function) (see adjustment table).If you are using field devices with high input impedance and a control system with low output impedance, check wheather HART transparency is working correctly.If necessary, deactivate HART transparency via the DIP switches. If the impedances are combined as described above, you can for example use the device KCD2-SCD-Ex1 alternatively.Additional informationSwitch PositionFunction S1.1S1.200SMART All other switch settingsnon SMART。

TWEEN® 80Product Number P 5188 Store at Room TemperatureProduct DescriptionCAS Number: 9005-65-6Specific gravity: 1.07 (25 °C)HLB (hydrophile-lipophile balance) value: 15.01,2 Critical Micellar Concentration (CMC): 13-15 mg/liter1,3 Brookfield Viscosity: 400-620 cps (25 °C, neat) Micelle molecular weight: 76 kDa3Synonyms: Polysorbate 80, PEG (80) sorbitan monooleate, polyoxyethylenesorbitan monooleate TWEEN 80 is a polyethylene sorbitol ester, with a calculated molecular weight of 1,310 daltons, assuming 20 ethylene oxide units, 1 sorbitol, and1 oleic acid as the primary fatty acid.4 Fatty acid constituents of this product are determined by transesterification to yield fatty acid methyl esters, which are identified by gas chromatography. Typically the fatty acid composition is approximately 70% oleic acid with several other fatty acids such as palmitic acid indicated.TWEEN 80 has been widely used in biochemical applications including: solubilizing proteins, isolating nuclei from cells in culture,5 growing of tubercule bacilli,6 and emulsifying and dispersing substances in medicinal and food products. It has little or no activity as an anti-bacterial agent1 except it has been shownto have an adverse effect on the antibacterial effect of methyl paraben and related compounds.7 Polysorbates have been reported to be incompatible with alkalis, heavy metal salts, phenols, and tannic acid. They may reduce the activity of many preservatives.8Product No. P 5188 is designated as Molecular Biology grade and is suitable for molecular biology applications. It has been analyzed for the absence of endonuclease-exonuclease and RNAse.Sigma also offers these additional TWEEN 80 products.P 1754 - for general use.P 4675 and P 4780 - tested in cell culture applications. P 8074 - SigmaUltra - extensively tested for trace metals.P 6224 - non animal source. Precautions and DisclaimerFor Laboratory Use Only. Not for drug, household or other uses.Preparation InstructionsTWEEN 80 is miscible in water (0.1 ml/ml) yielding a clear to slightly hazy faint yellow solution. It is reported to be miscible with alcohol, cottonseed oil, corn oil, ethyl acetate, methanol, and toluene, but insoluble in mineral oil.4 The pH of a 1% aqueous solution is5.5-7.2.Storage/StabilityAqueous solutions of polysorbates as well as the neat liquid will undergo autoxidation over time, with changes being catalyzed by light, increased temperature, and copper sulfate.9 Solutions are reasonably stable at 2 - 8 °C for short periods. For special applications, storage under argon or nitrogen may be preferred.The product is not sterile. Autoclaving of solutions is generally not advised. Sterile filtration is more easily done if the liquid is warmed to about 40 °C and alternate portions of hot distilled water and TWEEN 80 are poured through the 0.22 µm filter. The TWEEN 80 will blend and remain in solution.References1. Data for Biochemical Research, 3rd ed., Dawson,R. M. C., et al., Oxford University Press (NewYork, NY: 1986), p. 289.2. Neugebauer., J. M., Detergents: An overview.Methods Enzymol., 182, 247 (1990).3. Protein Purification Methods: A PracticalApproach., Harris, E. L. V., and Angal, S., eds.,IRL Press at Oxford University Press (New York,NY: 1990), p. 71.4. The Merck Index, 11th Ed., Entry #7559.5. Fisher, H. W. and H. Harris, Proc. R. Soc. B, 156,521 (1962).6. Dubos, R. J. and B.D. Davis, J. Exp. Med., 83, 409(1946).7. Disinfection, Sterilization & Preservation, 4th Ed.,Block, S.S. (Lea & Febiger Pub., 1991) Chapter 4.8. Martindale: The Extra Pharmacopoeia, 30th Ed.,Reynolds, J. E. F., ed., PharmaceuticalPress(London, England: 1993) p. 1030. 9. Donbrow, M., et al., Autoxidation of polysorbates.J. Pharm. Sci., 67, 1676-1681 (1978).TWEEN is a registered trademark of Uniqema, a business unit of ICI Americas Inc.RLG 11/05Sigma brand products are sold through Sigma-Aldrich, Inc.Sigma-Aldrich, Inc. warrants that its products conform to the information contained in this and other Sigma-Aldrich publications. Purchaser must determine the suitability of the product(s) for their particular use. Additional terms and conditions may apply. Please see reverse side ofthe invoice or packing slip.。

作者简介：尹佳杰，男，硕士，从事高分子材料结构、性能及改性研究。

基金项目:宁夏重点研发计划对外合作项目（No. 2019BFH02018）和宁夏高等学校一流学科建设项目 (No. NXYLXK2017A04).*通讯联系人收稿日期：2021-07-26顺丁橡胶（Butadiene rubber, BR ）是目前世界上第二大通用合成橡胶，与其它胶种相比，顺丁橡胶耐寒性及耐摩擦性能尤为优异[1]。

因此，75%的顺丁橡胶均被应用于轮胎制造[2]。

然而，随着我国汽车工业增速稳定以及轮胎行业结构转变，导致通用型顺丁橡胶处于过剩局面[3]。

因此，拓宽顺丁橡胶的应用领域迫在眉睫。

通常，顺丁橡胶具有较差的抗拉强度和撕裂强度，这大大限制了顺丁橡胶在其它领域的应用。

因此，顺丁橡胶需要与其它橡胶共用，这不仅能够发挥顺丁橡胶潜在优势，还能弥补所存在的缺点，例如与溶聚丁苯橡胶（SSBR ）共用改善抗湿滑性不良[4]，与天然橡胶（NR ）共用改善抗拉强度和抗撕裂性能[5]。

目前，为扩大顺丁橡胶在其他领域的应用，与顺丁橡胶共混不在局限于橡胶种类的选择，例如聚丙烯，聚苯乙烯以及一些高性能热塑性弹性体[6~11]。

而通常热塑性弹性体兼有热塑性塑料的加工成型性和硫化橡胶的高弹性性能，其中最为典型的热塑性弹性体是苯乙烯-丁二烯-苯乙烯三嵌段共聚物（SBS ），少量SBS 与聚丙烯（PP ）[12~13]、聚乙烯（PE ）[14~15]、聚苯乙烯（PS ）[16]共混可明显改善制品的低温性能和冲击强度，并且与顺丁橡胶相容性较好，因此与顺丁橡胶并用被应用于高档鞋用材料[11]。

然而，不饱和双键使SBS 对氧、热、光等耐老化性能较差，限制了某些特定环境的使用。

氢化SBS （SEBS ）是SBS 加氢使双BR /SEBS 硫化胶的制备与性能研究尹佳杰1，罗忠林2，罗发亮1*，马琴1，路晶1, 刘永东1(1.宁夏大学 省部共建煤炭高效利用与绿色化工国家重点实验室，宁夏 银川 750021；2.宁夏神州轮胎有限公司，宁夏 平罗 753400)摘要：为拓宽顺丁橡胶（BR ）的更广泛的应用，开发现代高性能顺丁橡胶复合材料，本文并用氢化SBS （SEBS ）改善BR 的抗拉强度和撕裂强度，研究了SEBS 含量变化对BR/SEBS 并用胶性能的影响。

电气绝缘应用领域据数十年来的统计，数量超过几亿台的电机在其转子和定子的绝缘防护方面都成功的使用了Sｃotchcast 产品。

今天Sｃoｔｃhcasｔ产品领域已经拓展到磁线防护，母排保护及磁环保护等。

Ｓcotchcast 产品大都通过了ＵL实验室对于电气绝缘系统的认证，小功率电机和其他需要认证的生产客户可以从中受益，其中最高温度等级达到Ｃｌａss C(２00°C)。

ﻫScotchcａst环氧粉末产品采用１00％固体单组分系统，其优势包括：快速固化,优异的电气性能，强大的抗热冲击及抗机械冲击性能,坚固的划伤抵御能力,良好的附着力，优秀的抗化学及潮湿腐蚀能力，适应高低温度的流动特性和优异的静电涂敷能力。

这类树脂产品由先进的熔结-共混工艺生产,保证了每个单一粉末颗粒都包含用于固化和提供上述性能的所有有效组分。

55５5电气绝缘树脂著名绝缘树脂产品,一种绿色，快速热固化的单组分粉末环氧树脂，能用静电流化床，静电喷涂或流化床浸涂的方法涂敷，应用于各种类型的绝缘电枢、定子、汇流条和和环形铁芯的绝缘保护。

它拥有极其优异的耐温性能,通过了UL认证的耐温等级H级。

５２３0N电气绝缘树脂３M电气绝缘树脂5２30Ｎ是一种蓝色,快速热固化的单组分粉末环氧树脂，它是为各种类型的底材提供持续的湿热稳定性、化学稳定性的绝缘涂层。

并且通过了UL认证。

26０电气绝缘树脂3Ｍ电气绝缘树脂260是通用性的绿色、快速热固化的单组分双酚A型粉末环氧树脂。

是为各种类型的底材提供持续的抗热冲击和抗冲击性能、湿热稳定性、化学稳定性的绝缘涂层。

通过UL认证。

260 8G电气绝缘树脂ﻫ３M电气绝缘树脂260 8G是通用性的绿色、快速热固化的单组分双酚A型粉末环氧树脂。

它拥有更快的固化速度,适用于更快的成产效率，是为各种类型的底材提供持续的抗热冲击和抗冲击性能、湿热稳定性、化学稳定性的绝缘涂层。

260 Ｃ-frｅe电气绝缘树脂３M电气绝缘树脂2６0C-free是通用性的绿色、快速热固化的、不含重金属铬的环保绿色单组分双酚A型粉末环氧树脂。

808溶剂型万能胶msds中文.doc Post By：2010-1-29 11:19: 00[广告] 您是否还在为验厂考勤软件而烦恼咨询电话：物质安全技术说明书（MSDS）（2008年修订版）一、化学品名称和制造商信息化学品名称：808溶剂型万能胶二、化学组成信息化学辩识：混合物主要成分：SBS热塑性橡胶 CAS编号：9003-55-8 1 0%增粘树脂 CAS编号：64742-16-1 8% 特级松香 CAS编号：8050-09-7 14% 醋酸乙脂 CAS编号：141-78-6 6% 溶剂油 CAS编号：8030-30-6 60%执行标准：国家标准：GB18583-2001；企业标准：Q/TQ003-2008三、危害信息危险类别：3类危规号：32196侵入途径：可通过食入、吸入及皮肤接触吸收侵入人体。

健康危害：本产品蒸气有麻醉性，工作场所溶剂蒸气超标将有害人体健康。

环境危害：流入水域会造成污染。

燃爆危险：密封低温储存，忌长期暴晒，严禁接近火源、热源，防止静电发生。

四、急救措施大量吸入：立即将患者移离污染区，并深呼吸新鲜空气，如患者仍感觉不适应将患者送医院就医。

皮肤接触：立即用大量肥皂水清洗皮肤处。

脱去并隔离被污染的衣物和鞋。

若有红肿等症状持续，立即就医。

眼睛接触：以大量清水清洗被接触的眼睛不少于10分钟，如再感不适及时送医治疗。

不慎吞入：若患者尚清醒，使其喝1-2杯水以稀释药物并立即联系医院或毒物控制中心。

若患者已不清醒，不要从口给任何东西以确保呼吸道畅通，将身体平躺下，勿催吐，立即送往医院。

对急救人员之防护：戴口罩、手套、面具、防护衣。

对医师之提示：溶剂型胶粘剂。

五、消防措施危险特性：可被静电或明火点燃，加热到分解温度时释放出毒性的烟雾。

灭火器材：干粉、干砂、二氧化碳。

灭火方法：发生火灾时，请迅速切断着火点附近的燃烧途径，并穿适当的防护服，戴设备齐全的呼吸器，使用灭火剂由上风往下风的方向进行灭火。

第1部分化学品及企业标识化学品中文名：2,5-二氯苯酚化学品英文名：2,5-dichlorophenolCAS号：583-78-8分子式：C6H4Cl2O分子量：163产品推荐及限制用途：工业及科研用途。

第2部分危险性概述紧急情况概述：吞咽有害。

造成严重皮肤灼伤和眼损伤。

GHS危险性类别：急性经口毒性类别4皮肤腐蚀/刺激类别1B标签要素：象形图：警示词：危险危险性说明：H302吞咽有害H314造成严重皮肤灼伤和眼损伤防范说明：•预防措施：——P264作业后彻底清洗。

——P270使用本产品时不要进食、饮水或吸烟。

——P260不要吸入粉尘/烟/气体/烟雾/蒸气/喷雾。

——P280戴防护手套/穿防护服/戴防护眼罩/戴防护面具。

•事故响应：——P301+P312如误吞咽：如感觉不适，呼叫解毒中心/医生——P330漱口。

——P301+P330+P331如误吞咽：漱口。

不要诱导呕吐。

——P303+P361+P353如皮肤(或头发)沾染：立即脱掉所有沾染的衣服。

用水清洗皮肤/淋浴。

——P363沾染的衣服清洗后方可重新使用。

——P304+P340如误吸入：将人转移到空气新鲜处，保持呼吸舒适体位。

——P310立即呼叫解毒中心/医生——P305+P351+P338如进入眼睛：用水小心冲洗几分钟。

如戴隐形眼镜并可方便地取出，取出隐形眼镜。

继续冲洗。

•安全储存：——P405存放处须加锁。

•废弃处置：——P501按当地法规处置内装物/容器。

物理和化学危险：无资料健康危害：吞咽有害。

造成严重皮肤灼伤和眼损伤。

环境危害：无资料第3部分成分/组成信息第4部分急救措施急救：吸入：迅速脱离现场至空气新鲜处。

保持呼吸道通畅。

如呼吸困难，给输氧。

呼吸、心跳停止，立即进行心肺复苏术。

就医皮肤接触：立即脱去污染的衣着，用甘油、聚乙二醇300至400或聚乙二醇和酒精混合液(7：3)抹洗，然后用水彻底清洗。

或用大量流动清水冲洗20～30min。

化学品安全技术说明书第一部分化学品及企业标识化学品中文名：2,5-二氯苯酚化学品英文名：2,5-dichlorophenol化学品别名：2,5-二氯酚CAS No.：583-78-8EC No.：209-520-4分子式：C6H4Cl2O第二部分危险性概述| 紧急情况概述固体。

对皮肤有刺激性。

对眼睛有严重刺激性。

对水生物有毒。

对水生环境可能会引起长期有害作用。

使用适当的容器, 以预防污染环境。

| GHS 危险性类别根据 GB 30000-2013 化学品分类和标签规范系列标准（参阅第十六部分），该产品分类如下：皮肤腐蚀/刺激，类别 2；眼损伤/眼刺激，类别 2A；危害水生环境-急性毒性，类别 2；危害水生环境-慢性毒性，类别 2。

| 标签要素象形图警示词：警告危险信息：造成皮肤刺激，造成严重眼刺激，对水生生物有毒，对水生生物有毒并具有长期持续影响。

防范说明预防措施：作业后彻底清洗。

避免释放到环境中。

戴防护手套/穿防护服/戴防护眼罩/戴防护面具。

事故响应：收集溢出物。

如发生皮肤刺激：求医/就诊。

如仍觉眼刺激：求医/就诊。

脱去被污染的衣服，清洗后方可重新使用。

如进入眼睛：用水小心冲洗几分钟。

如戴隐形眼镜并可方便地取出，取出隐形眼镜。

继续冲洗。

安全储存：不适用。

废弃处置：按照地方/区域/国家/国际规章处置内装物/容器。

| 危害描述物理化学危险无资料健康危害吸入该物质可能会引起对健康有害的影响或呼吸道不适。

意外食入本品可能对个体健康有害。

皮肤直接接触可造成皮肤刺激。

通过割伤、擦伤或病变处进入血液，可能产生全身损伤的有害作用。

本品能造成严重眼刺激。

眼睛直接接触可能会造成严重的炎症并伴随有疼痛。

眼睛直接接触本品可导致暂时不适。

环境危害本品对水生生物有毒。

本品对水生生物有毒并具有长期持续影响。

请参阅 SDS 第十二部分。

第三部分成分/组成信息√物质混合物第四部分急救措施| 急救措施描述一般性建议：急救措施通常是需要的，请将本 SDS 出示给到达现场的医生。

蓝电油MSDS蓝电油(MSDS)是一份关于蓝电油的材料安全数据表（MSDS）。

以下是关于蓝电油的详细信息。

产品标识- 产品名称：蓝电油- 别名：无- 生产商：XXX 公司- 生产日期：YYYY-MM-DD- 产品代码：成分信息- 主要成分：蓝电油是由XX%的成分A和YY%的成分B组成。

- 其他成分：包括ZZ%的成分C和WW%的成分D等。

物理性质- 外观：蓝电油为深蓝色液体。

- 气味：具有特殊气味。

- 熔点：X°C- 沸点：Y°C- 相对密度：Z g/cm³- 溶解性：蓝电油可溶于XX溶剂。

安全性信息- 危险分类：蓝电油属于可燃液体，注意避免火源。

- 对人体健康影响：长期暴露可能对呼吸系统和皮肤有刺激作用。

- 对环境的影响：蓝电油可能对水体和土壤造成污染。

应急处理措施- 灭火方法：使用适当的灭火剂进行灭火。

- 漏洞处理：用合适的吸收剂吸取泄漏物，避免进入下水道。

- 个人防护措施：在处理蓝电油时戴好防护手套和眼镜。

操作和储存注意事项- 操作注意事项：在通风良好的地方使用，避免吸入蒸汽。

- 储存注意事项：存放在阴凉、干燥、通风的地方，远离火源和高温。

急救措施- 眼部接触：立即用大量清水冲洗至少15分钟，如有问题请尽快就医。

- 皮肤接触：立即用肥皂和水彻底清洗受到污染的皮肤。

- 吸入：迅速将患者移到空气新鲜处，如有问题请尽快就医。

请注意，以上信息仅供参考。

具体使用和处理蓝电油时，请遵循产品标签上的说明和安全操作规程。

如有任何疑问或紧急情况，请立即联系相关专业人士。

MAR-BAL INCORPORATED QUARTER OF A MILLION DOLLARS IN SAVINGSCase StudyWHAT WOULD YOU DO IF YOU SUDDENLY FOUND 5,000 EXTRA MACHINE HOURS?Mar-Bal, Inc. is a one-source solution provider of thermoset composite products. From design and formulation to compounding, molding and finishing, Mar-Bal is a privately-held manufacturing company with 350 employees producing state-of-the-art products across four facilities in North America. Over the last few years, Mar-Bal had been experiencing challenges in its day-today operations. Mar-Bal’s customized (AS400-based) ERP software was outdated, preventing the necessary increase in manufacturing activity required to keep Mar-Bal competitive in today’s global economy. As each year passed, it became more expensive to operate the old ERP system due to the specialized support required to maintain and upgrade it.Among many of the old system’s pain points was the absence of a strong Electronic Data Interchange (EDI) program required by Mar-Bal’s customers. Inbound EDI with the old system was limited to a time-consuming interface with customer portals to retrieve customer product demand and outbound EDI capability was nonexistent. The old system lacked the essential services (such as the automatic transmission of advanced shipping notices and electronic invoices) necessary to conduct business with key clients.Inventory control with the old system was also sorely deficient. The inability to scan inventory from the shop floor was making inventory management a manual and extremely time-consuming process that included redundant data entry and unavoidable data entry errors. As Mar-Bal expanded and increased manufacturing activity, its operations needed to be more agile, but employees were instead spending an average of six hours a day verifying inventory. The lack of inventory visibility also required a full physical inventory to be performed once per month that included machine downtime, wasting valuable production time while all employees manually checked inventory levels.In addition, consigned inventory was also difficult to manage with the old system. It did not keep track of what was on hand at the customer site and allowed no way to add or reduce vendor managed inventory (VMI) based on shipments and consumption.To round it all out, the old ERP system contained very limited reporting tools and forecasting abilities and no way to easily segregate the separate plants’ costs and sales. Month-end activities required nearly two weeks to wrap up. Internal system communication and access to information was also a problem, resulting in poor customer service as sales people on the road could not access necessary order status information, resulting in longer response times to customers.AN EXTENSIVE ERP SOFTWARE SEARCH BEGINS Mar-Bal had two options: pour more money into its outdated system and attempt to manually streamline processes in its manufacturing system, or find a new ERP provider. Mar-Bal chose the latter and the search began for a modern system with more capabilities (such as EDI, a robust inventory/warehouse management system and real-time plant floor production monitoring) without adding more operational costs to the existing organization.Desiring an industry-specific software solution, Mar-Bal compiled a list of providers offering software related to the plastics industry, but which also could be used for assembly and finishing. Mar-Bal differentiates itself by being a one-source solution provider and required a system that could differentiate cleanly between its multiple manufacturing types.Multiple software suppliers were researched and the list was narrowed to the systems that could process more transactions in less time while still allowing Mar-Bal to grow sales without expanding staff for data management. Industry references were contacted and the functionality of the software was investigated from the user’s point of view, which revealed DELMIAworks (formerly IQMS) and one other package as finalists. Manufacturing site visits were conducted, and DEL MIAworks’ comprehensive, industry-specific ERP solution rose to the head of the pack.“EnterpriseIQ has the functionality to support not only our molding operations, but also our other manufacturing needs,” said Aaron Bable, Director of Business Process Systems at Mar-Bal, Inc. “IQMS’ support capabilities and experience in manufacturing, plus their impressive cooperation with users, made the choice of EnterpriseIQ clear.”IMPLEMENTATION REVEALS IMMEDIATE RESULTS EnterpriseIQ was installed at the Chagrin Falls, Ohio, headquarters and then implemented at Mar-Bal’s four facilities. Following implementation, Mar-Bal saw immediate results. Through DEL MIAworks’ robust and native EDI module, Mar-Bal is now completely connected to its customers’ demand planning systems. Real-time order updates from Mar-Bal’s customers are electronically entered into EnterpriseIQ, and employees process orders in significantly less time with information entering the system within minutes of customers releasing it. Outbound EDI functionality embedded with the auto-invoicing feature in EnterpriseIQ allows more than 100 invoices to be transmitted within minutes, all by one employee. Mar-Bal has experienced more effective billing and reduced average invoice aging because price or quantity discrepancies are resolved immediately, rather than discovered weeks later.Through DE L MIAworks’ Warehouse Management System (WMS), Mar-Bal can now track the movement of all inventory—every single box and part—throughout its plants. With barcode labeling and scanning, full physical inventories are no longer necessary on a monthly basis, saving considerable amounts of time and labor. Additionally, Mar-Bal utilizes DEL MIAworks’ business activity monitoring system, IQAlert, to flag any predefined occurrences that need investigation, such as negative inventory. Consignment inventory maintenance also improved, as EnterpriseIQ’s VMI module allows for automatic increases to consigned locations upon packing slip creation as well as an easy-to-use consumption menu that is tied directly to invoicing.System visibility and communication have improved dramatically with real-time plant floor production monitoring and remote access capabilities. The multiple phone calls needed to determine when a customer shipment would be made are no longer needed as a sales person on the road can now look at the EnterpriseIQ application on their smartphone, tablet or computer and see if a job is running or determine the stock Mar-Bal has on hand without making a call. Mar-Bal’s customer service representatives and operations personnel can focus on their other responsibilities, and the sales people can get their answers immediately.New reporting tools, such as Crystal Reports that allow for the clean output of a month’s activities and Spreadsheet Server for financial reporting, decreased Mar-Bal’s month end close to only four days, rather than eight to 12 days.What would you do with 5,000 extra hours of machine time? Mar-Bal, Inc. experienced both immediate and long-term savings with DEL MIAworks’ manufacturing ERP solution. Annually, Mar-Bal’s total savings were $270,000 across its four plants as well as nearly 5,000 potential machine hours that were no longer lost to downtime for monthly physical inventory checks.Mar-Bal found considerable savings when it installed DE L MIAworks’ innovative RealTime™ Production Monitoring system, tracking all aspects of part production as they occur. Manufacturing performance is optimized as RealTime™ allows Mar-Bal to monitor work center performance as it is happening and proactively address potential problems. Graphically, Mar-Bal can now see all of its presses during a shift and is able to see how jobs are running, how much scrap is being generated, if the cycle time is slow and if there is a problem that requires attention. With the RealTime™ interface, Mar-Bal saved 12 hours a day or $62,000 annually.EnterpriseIQ’s EDI program has been a huge asset to Mar-Bal, reducing order entry time and increasing customer service. Previously, because order information had to be entered manually into each customer portal, larger customers might receive daily release changes a half a day late, while now, 100 orders can be processed in 10 minutes. Inbound order processing through EDI saved eight hours a day, or $40,000 annually, and with the addition of outbound EDI, Mar-Bal automatically sends invoices and advanced shipping notices, saving four hours per day or $20,000 annually.Improved warehouse management and inventory control visibility was another major area of savings for Mar-Bal. They can now look at the system and see exactly what is on hand and where it is. The time spent verifying inventory locations at all plants is now six hours less per day or $30,000 annually. DELMIAworks’ inventory control system provides the requisite accuracy so that full physical inventories are no longer needed on a monthly basis and Mar-Bal has moved them to once a year, saving 2,750 hours of labor or $53,000. Additionally, a complete monthly inventory check required the plant to shut down, resulting in lost production time for 90 machines. EnterpriseIQ was able to save nearly 5,000 potential machine hours that were previously lost to downtime for physical inventory.Month-end was previously a two-week process at Mar-Bal, but now has gone down to only four days, a savings of $23,000 per year. Reporting capabilities improved dramatically for Mar-Bal with the hundreds of customizable reports that EnterpriseIQ provides, allowing Mar-Bal to measure areas inaccessible to them in the past. Advanced forecasting and budgeting tools allow Mar-Bal to accurately plan for sales and costs in the upcoming year based on projected client demand. Accurate reporting of global raw material purchases delivered Mar-Bal more negotiating power with volume purchasing, saving $30,000 per year.GAINING THE CRITICAL EDGEMar-Bal gains an edge over its competition with a better understanding of costing and profitability at both the micro and macro level. Detail-rich features in EnterpriseIQ allow for Mar-Bal to see precise production and labor costs so they can q uickly and confidently send accurate quotes to customers. Through global material purchase reports, Mar-Bal’s Corporate Procurement Department is able to negotiate for volume purchase price breaks, which translates into a better price for its customers.EnterpriseIQ’s RealTime™ Production Monitoring also gives Mar-Bal an edge over the competition. The immediate, real-time relay of information through the EnterpriseIQ system allows employees to quickly respond to customers when a delivery date needs to be changed and/or items can ship sooner than expected. The scheduling module natively integrated with RealTime™ is very easy to use and can calculate updates to tens of thousands of orders in a matter of minutes.In addition to the documented and visible benefits of EnterpriseIQ, Mar-Bal also noticed some bonus benefits that were not listed in the initial project plan. Cross functional awareness soon developed among its plant users shortly after launch. In the past, Mar-Bal’s departments often operated in department “silos” due to the old system’s lack of visibility, but with EnterpriseIQ, the seamless flow of information between modules and complete system visibility allows users to see the whole picture.“We saw our employees not waiting for the conflict to occur, but taking proactive steps well before the conflict became a serious issue,” said Bable. “A culture of continuous improvement, coupled with the capabilities EnterpriseIQ offers, gives us a distinct advantage over our competitors. We are able to process an order at less cost, more accurately and without increasing headcount.”© 2019 D a s s a u l t S y s t èm e s . A l l r i g h t s r e s e r v e d . 3D E X P E R I E N C E ®, t h e C o m p a s s i c o n , t h e 3D S l o g o , B I O V I A , G E O V I A , S O L I D W O R K S , 3D V I A , E N O V I A , E X A L E A D , N E T V I B E S , M E D I D A T A , C E N T R I C P L M , 3D E X C I T E , S I M U L I A , D E L M I A , a n d I F W E a r e c o m m e r c i a l t r a d e m a r k s o r r e g i s t e r e d t r a d e m a r k s o f D a s s a u l t S y s t èm e s , a F r e n c h “s o c i ét é e u r o p ée n n e ” (V e r s a i l l e s C o m m e r c i a l R e g i s t e r # B 322 306 440), o r i t s s u b s i d i a r i e s i n t h e U n i t e d S t a t e s a n d /o r o t h e r c o u n t r i e s . A l l o t h e r t r a d e m a r k s a r e o w n e d b y t h e i r r e s p e c t i v e o w n e r s . U s e o f a n y D a s s a u l t S y s t èm e s o r i t s s u b s i d i a r i e s t r a d e m a r k s i s s u b j e c t t o t h e i r e x p r e s s w r i t t e n a p p r o v a l .Our 3D EXPERIENCE ® platform powers our brand applications, serving 11 industries, and provides a rich portfolio of industry solution experiences.Dassault Systèmes, the 3D EXPERIENCE Company, is a catalyst for human progress. We provide business and people with collaborative virtual environments to imagine sustainable innovations. By creating ‘virtual experience twins’ of the real world with our 3D EXPERIENCE platform and applications, our customers push the boundaries of innovation, learning and production.Dassault Systèmes’ 20,000 employees are bringing value to more than 270,000 customers of all sizes, in all industries, in more than 140 countries. For more information, visit www .Europe/Middle East/Africa Dassault Systèmes10, rue Marcel Dassault CS 4050178946 Vélizy-Villacoublay CedexFranceAmericasDassault Systèmes 175 Wyman StreetWaltham, Massachusetts 02451-1223USADassault Systèmes K.K.ThinkPark Tower2-1-1 Osaki, Shinagawa-ku,Tokyo 141-6020Japan。

产品名称Super Lube Grease 超级润胡油脂企业识别略成分/组分信息➢组分名称CAS# SYNTHETIC HYDROCARBON 68037-01-4 HYDRO TREATED POLYMER 8042-47-5 ANTI-OXIDANT 41484-35-9 FUMED SILICA 68611-44-9 THERMAL STABILIZER 68648-89-5 POLYTETRAFLUORETHYLENE 9002-84-0 POLYGLYCOL 025322-69-4危害识别➢接触途径：皮肤接触、食入➢健康危害：皮肤及眼睛接触可能引起轻微刺激，尚无吞食案例。

➢症状：眼睛接触会导致轻微刺激，长期或重复接触会导致中度刺激。

➢致癌性：此产品没有被列为致癌物。

急救措施➢眼睛接触：用足量的清水持续冲洗。

➢皮肤接触：应立即用抹布擦拭，并用肥皂和清水冲洗。

➢吸入：迅速将患者移至新鲜空气处，并给呼吸困难者供氧。

➢吞食：立即就医。

消防措施➢闪点：>220℃爆炸极限：未知➢灭火剂：二氧化碳、干化学品、泡沫灭火剂➢特殊消防程序：在限制空间灭火时必须佩带自给式呼吸器➢异常火灾/爆炸危害：未知泄漏应急处理➢处理措施：吸附或收集泄漏物操作处置与储存➢操作：应遵守良好的工业操作要求接触控制与个人防护➢呼吸防护：无要求通风：未知➢防护手套：正常使用条件下不需要眼睛防护：安全眼镜➢其他防护衣或设备：正常使用条件下不需要理化性质➢沸点：未知比重（水=1）：0.87±0.02➢蒸汽压：未知熔点：未知➢蒸汽密度（空气=1）：未知蒸发率：未知➢水溶性：不溶于水➢外观和气味：半透明白色至微黄，轻微气味稳定性和反➢稳定性：一般情况下稳定➢应避免的条件：未知应性➢禁配物：可能会与强氧化剂反应➢危险的分解产物: 燃烧会产生一氧化碳➢危险的聚合反应：不会发生毒理学资料➢无资料生态学资料➢无资料废置处理➢产品废弃物处置方法：废弃处置时请遵守国家、地区和当地的所有法规。

三甲基溴化亚砜工业标三甲基溴化亚砜（TMBS）是一种重要的化学品，广泛应用于工业生产中。

它是一种无色液体，具有强烈的刺激性气味。

本文将从三个方面介绍三甲基溴化亚砜的工业标准，包括其化学性质、应用领域和安全注意事项。

一、化学性质三甲基溴化亚砜的化学式为C4H9BrO2S，分子量为199.07。

它是一种有机化合物，主要由溴、硫和氧元素组成。

在常温下，它为无色液体，密度为1.584 g/cm³。

三甲基溴化亚砜具有较高的沸点和熔点，分别为202°C和-45°C。

它可溶于有机溶剂，如醇、醚和酮，而在水中几乎不溶。

二、应用领域三甲基溴化亚砜是一种重要的化学中间体，在许多工业领域中有广泛的应用。

首先，它在有机合成中起着重要的作用。

它可作为溴化剂，用于氢原子的取代反应。

此外，三甲基溴化亚砜还可用于合成有机硫化合物和有机溴化物等化合物。

其次，它在医药领域也有应用。

三甲基溴化亚砜可用作抗菌药物和抗癌药物的中间体。

此外，它还可用于染料、香料和塑料等领域。

三、安全注意事项在使用三甲基溴化亚砜时，应注意以下安全事项。

首先，它具有刺激性气味，接触时可能导致眼睛和皮肤的刺激。

因此，在操作时应佩戴防护眼镜和手套，避免直接接触。

其次，三甲基溴化亚砜在加热和燃烧时会释放出有毒气体，可能对人体造成伤害。

因此，在操作过程中需保持良好的通风条件，避免吸入有害气体。

另外，三甲基溴化亚砜具有腐蚀性，避免与酸、碱等物质接触，以防发生化学反应。

最后，使用过程中应注意避免接触火源，避免引发火灾。

三甲基溴化亚砜是一种重要的化学品，具有广泛的应用领域。

它在有机合成和医药领域中起着重要的作用，并且需要注意其刺激性和有毒性。

在工业生产中，使用三甲基溴化亚砜时应遵守相关的安全操作规程，确保操作人员的安全和生产环境的安全。

参考文献：[1] 王春阳. 有机溴化学[M]. 济南：山东科学技术出版社，2018.[2] 李文娟，曾鸿光. 有机化学实验技术[M]. 北京：化学工业出版社，2016.。