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电子器件

瓦克的室温硫化有机硅弹性体能够可靠地保护电子部件不受外界影响,确保其功能可靠性。作为拥有长年经验的全球领军有机硅生产商之一,瓦克能够为电子部件的灌封、粘接、密封和涂覆提供定制化解决方案,是行业名符其实的可靠合作伙伴。

重要特性:

  • 面向封闭式壳体内应用
  • 弹性模量低(10-100 kPa)
  • 可减缓热机械应力
  • 大跨度温度范围(-45°C至+180 °C)内适用
  • 极为可靠
  • 离子含量低
  • 不易泛碱
  • 定制化加工性能,适用于快速的大规模生产
  • 室温硫化或热固化(单组分)
  • 凝胶具有触变性,或自流平
  • 具备固有粘着性,可附着于不同基材

柔软型凝胶应用领域:

  • 敏感电子部件
  • 电子控制单元(ECU)
  • 绝缘栅双极型晶体管(IGBT)
  • 圆顶封装(Glob Top)
  • 传感器
  • 显示屏
  • 键合集成电路

坚韧型有机硅凝胶应用领域:

  • 电压调节器
  • 变压器灌封
  • 电感元件灌封
  • 光伏用接线盒

产品推荐

表格可上下滚动
个产品
技术数据
Product properties
动态粘度 Dropping period 锥入度 监管 交联性能 硫化胶
ELASTOSIL® CAT UV 1000 mPa·s[1] 1000 mPa·s[1] ≥ 1 d[7] ≥ 1 d[7] - - - - -
ELASTOSIL® RT 745 "S" A/B 1000 mPa·s[2] 1000 mPa·s[2] - - - - - - -
ELASTOSIL® RT 745 T A/B 1000 mPa·s[3] 1000 mPa·s[3] - - - - - - -
ELASTOSIL® RT 745 T A/B KR 1000 mPa·s[3] 1000 mPa·s[3] - - - - - - -
ELASTOSIL® RT 745 T A/B KR 1000 mPa·s[3] 1000 mPa·s[3] - - - - - - -
SEMICOSIL® 911 A/B 8000 mPa·s[4] 8000 mPa·s[4] - - - - 低挥发 双组分, 加成固化 离子含量少
SEMICOSIL® 9242 20000 mPa·s[5] 20000 mPa·s[5] - - - - - - -
SEMICOSIL® 950 UV B 1000 mPa·s[6] 1000 mPa·s[6] - - - - - - -
WACKER SilGel® 612 A/B 1000 mPa·s[1] 1000 mPa·s[1] - - 300 1/10mm[8] 300 1/10mm[8] - - -
WACKER SilGel® 613 - - - - 70 1/10mm[9] 70 1/10mm[9] - - -
WACKER SilGel® 616 A/B 300 mPa·s[1] 300 mPa·s[1] - - 280.0 1/10mm[10] 280.0 1/10mm[10] - - -
说明
[1] 动态粘度 | 25 °C | ISO 3219,  [2] 动态粘度 | 23 °C | ISO 3219,  [3] 动态粘度 | ISO 3219,  [4] Viscosity A [D=0,5 s⁻¹] | 25 °C | DIN EN ISO 3219,  [5] Viscosity, D=0.5 1/s | 25 °C | ISO 3219,  [6] 动态粘度 | DIN EN ISO 3219 | A: SEMICOSIL® 949 UV A; B: SEMICOSIL® 950 UV B,  [7] Dropping period | Typical Value for 25°C for which doubling of mix viscosity in static mixing tube is referred to, [not exposed to UV light or ambient light, depending on addition curing silicone grade]; No processing with premix recommended,  [8] 锥入度 | DIN ISO 2137 | 150 g hollow cone, 1 min.,  [9] 锥入度 9.38克空心锥 | DIN ISO 2137,  [10] 锥入度 | DIN ISO 2137 | 150 g hollow cone, 60 sec.,  [] 适合,  [] 非常适合,  [] 极其适合 

优势:

  • 柔软凝胶(灌封)
  • 含低温及高温系列
  • 弹性胶粘剂
  • 可在温度适中条件下快速固化的胶粘剂,可实现高效率大规模生产
  • 导热填隙材料、胶粘剂、导热硅脂、导热封装胶(0.5–4 W7mK)
  • 低温系列在低至-45°C,高温系列在高达+210°C的温度条件下适用

应用领域:

  • 密封电子控制单元和壳体
  • 灌封或封装电子部件,以提供保护
  • 粘接混合电路板
  • 密封/粘接壳体组件(就地固化垫片、就地成型垫片、预成型垫片)
  • 涂布或粘接独立元件(如,微机电系统)
  • 热管理解决方案,例如,粘接散热片、封装材料和导热填隙材料

优势:

  • 在-50°C至+150°C的温度范围内具有出色的耐久性,特种系列可扩展到-110°C至+220°C
  • 对众多类型的基材具有很好的粘结力
  • 耐候性、耐紫外线性出色
  • 可在大跨度温度和频率范围内保持稳定而优异的介电性能
  • 不含侵蚀性组分
  • 环境相容性出色
  • 憎水,吸水性极低
  • 减振性优异
  • 化学纯度高

应用领域:

  • 涂布和封装敏感器件(测量仪器、控制系统)
  • 涂布组件中的选定区域
  • 密封传感器组件
  • 密封壳体组件
  • 密封微机电系统(MEMS)麦克风和扬声器
  • 可在机械测量仪表中起到防腐蚀、减压、减震的作用

Product Recommendations

Table is scrollable
Products
Technical data
Product properties
动态粘度 Shore density A Breaking strength 断裂伸长率 Tear-growth resistance Dropping period 锥入度 监管 流变性 交联性能 硫化胶
ELASTOSIL® CAT UV 1000 mPa·s[1] 1000 mPa·s[1] - - - - - - - - ≥ 1 d[12] ≥ 1 d[12] - - - - - -
ELASTOSIL® N 2010 10.000 mPa·s[2] 10.000 mPa·s[2] 25[13] 25[13] 1 N/mm²[16] 1 N/mm²[16] 200 %[20] 200 %[20] - - - - - - - 剪切变稀, 自流平 - -
ELASTOSIL® N 2034 30000 mPa·s[3] 30000 mPa·s[3] 35[13] 35[13] 2 N/mm²[16] 2 N/mm²[16] 200 %[20] 200 %[20] - - - - - - 阻燃性 - - -
ELASTOSIL® N 2199 950000 mPa·s[4] 950000 mPa·s[4] 30[13] 30[13] 2.5 N/mm²[16] 2.5 N/mm²[16] 400 %[20] 400 %[20] 6.5 N/mm[25] 6.5 N/mm[25] - - - - - 抗下垂 - -
ELASTOSIL® N9111 GREY 1000000 mPa·s[5] 1000000 mPa·s[5] 30[13] 30[13] 2.2 N/mm²[16] 2.2 N/mm²[16] 500 %[21] 500 %[21] 10 N/mm[26] 10 N/mm[26] - - - - - 抗下垂, 触变 - -
ELASTOSIL® N9111 WHITE 900000 mPa·s[4] 900000 mPa·s[4] 30[13] 30[13] 2.20 N/mm²[16] 2.20 N/mm²[16] 500 %[21] 500 %[21] 10 N/mm[26] 10 N/mm[26] - - - - 阻燃性 抗下垂, 触变 - -
ELASTOSIL® RT 601 A/B 5000 mPa·s[6] 5000 mPa·s[6] 45[13] 45[13] 6 N/mm²[17] 6 N/mm²[17] 100 %[22] 100 %[22] - - - - - - - 易流动的 双组分, 加成固化 高透明度
ELASTOSIL® RT 713 - - - - - - - - - - - - - - - 抗下垂 高温下快速固化, 单组分, 加成固化 泡沫, 可压缩
ELASTOSIL® RT 745 "S" A/B 1000 mPa·s[6] 1000 mPa·s[6] - - - - - - - - - - - - - - - -
ELASTOSIL® RT 745 A/B 1000 mPa·s[6] 1000 mPa·s[6] 15[13] 15[13] - - - - - - - - - - - - 双组分, 加成固化 -
SEMICOSIL® 9242 20000 mPa·s[7] 20000 mPa·s[7] - - - - - - - - - - - - - - - -
SEMICOSIL® 950 UV B 1000 mPa·s[8] 1000 mPa·s[8] - - - - - - - - - - - - - - - -
SEMICOSIL® 987 GR 350000 mPa·s[9] 350000 mPa·s[9] 50[14] 50[14] 5 N/mm²[18] 5 N/mm²[18] 200 %[23] 200 %[23] - - - - - - - - - -
SEMICOSIL® 988/1K GRAY KR 440000 mPa·s[10] 440000 mPa·s[10] - - 4.5 N/mm²[19] 4.5 N/mm²[19] 350 %[24] 350 %[24] - - - - - - - - - -
SEMICOSIL® 988/1K GREY 440000.0 mPa·s[11] 440000.0 mPa·s[11] 35[15] 35[15] 4.5 N/mm²[19] 4.5 N/mm²[19] 350 %[24] 350 %[24] - - - - - - - - - -
WACKER SilGel® 613 - - - - - - - - - - - - 70 1/10mm[27] 70 1/10mm[27] - - - -
Legend
[1] 动态粘度 | 25 °C | ISO 3219,  [2] 动态粘度 | 25 1/s | ISO 3219,  [3] 动态粘度 (D = 0.5 1/s) | 25 °C | DIN EN ISO 3219,  [4] 动态粘度 D = 0,5 1/s | 25 °C | DIN EN ISO 3219,  [5] 动态粘度 D = 0.5 1/s | 25 °C | DIN EN ISO 3219,  [6] 动态粘度 | 23 °C | ISO 3219,  [7] Viscosity, D=0.5 1/s | 25 °C | ISO 3219,  [8] 动态粘度 | DIN EN ISO 3219 | A: SEMICOSIL® 949 UV A; B: SEMICOSIL® 950 UV B,  [9] 动态粘度 (D = 0.5 1/s) | 25 °C | ISO 3219,  [10] 动态粘度 (D = 0.5 sec⁻¹) | 25 °C | ISO 3219,  [11] 动态粘度 (D = 0.5 1/s) | 25.0 °C | ISO 3219,  [12] Dropping period | Typical Value for 25°C for which doubling of mix viscosity in static mixing tube is referred to, [not exposed to UV light or ambient light, depending on addition curing silicone grade]; No processing with premix recommended,  [13] Shore density A | DIN ISO 48-4,  [14] Shore density A | ASTM D 2240,  [15] Shore density A | ASTM D 2240 | Measured at 23°C; Cured for 30 min at 150°C in a circulating oven,  [16] Breaking strength | ISO 37 | Type 3 / 23°C / 2mm,  [17] Breaking strength | ISO 37 type 1,  [18] Breaking strength | DIN 53504 S2,  [19] Breaking strength | DIN 53504 S2 | measured at 23°C on pressed sheet 165°C/15 min,  [20] 断裂伸长率 | ISO 37,  [21] 断裂伸长率 | ISO 37 | Type 3 / 23°C / 2mm,  [22] 断裂伸长率 | ISO 37 type 1,  [23] 断裂伸长率 | DIN 53504 S2,  [24] 断裂伸长率 | DIN 53504 S2 | measured at 23°C on pressed sheet 165°C/15 min,  [25] Tear-growth resistance | ASTM D 624 B,  [26] Tear-growth resistance | ASTM D 624 B | 23°C / 2mm,  [27] 锥入度 9.38克空心锥 | DIN ISO 2137,  [] Suited,  [] Well suited,  [] Ideally suited 

优势:

  • 可靠性强,在苛刻的测试条件下同样表现出色
  • 收缩率低(<0.1%,固化前后)
  • 无Mura缺陷
  • 模量极低(10 kPa-200 kPa)
  • 光学可靠性优异(老化后)
  • 适用于各种常见工业应用工艺(围堰填充、无围堰施工、狭缝式涂布、丝网印刷、孔版印刷)
  • 加工迅速(紫外线固化系列)
  • 弹性模量低,更适合于单玻璃显示解决方案(OGS),适用温度范围广
  • 介电常数低(2.7 – 2.8)
  • 易于返工,节约成本
  • 可加工时间长
  • 无氧阻聚问题
  • 不含光引发剂

应用领域:

  • 光学贴合触摸屏
  • 封装光学与电子器件
  • 生产阻尼元件
  • 大尺寸显示屏
  • 汽车内部的显示器

Product Recommendations

Table is scrollable
Products
Technical data
Product properties
Viscosity, dynamic Tear strength Pot life Hardness Shore A Hardness Shore 00 Tensile strength Elongation at break Product Rheology Crosslinking Property Vulcanizate
LUMISIL® 010 A/B - - - - - - - - - - - - - - Flowable Fast curing under heat, No chemical shrinkage, Two-component, Addition Curing Highly transparent
LUMISIL® 010 A/B - - - - - - - - - - - - - - Flowable Fast curing under heat, No chemical shrinkage, Two-component, Addition Curing Highly transparent
LUMISIL® 015FC A/B - - - - - - - - - - - - - - Flowable Fast curing under heat, fast curing at moderate temperatures, No chemical shrinkage, Two-component, Addition Curing Highly transparent
LUMISIL® 100 A/B - - - - - - - - - - - - - - Flowable Fast curing under heat, fast curing at moderate temperatures, No chemical shrinkage, Two-component, Addition Curing Highly transparent
LUMISIL® 100 OD A/B - - - - - - - - - - - - - - Flowable Fast curing under heat, No chemical shrinkage, Two-component, Addition Curing Highly transparent
LUMISIL® 101 A/B - - - - - - - - - - - - - - Flowable Fast curing under heat, fast curing at moderate temperatures, No chemical shrinkage, Two-component, Addition Curing Highly transparent
LUMISIL® 101 FC A/B - - - - - - - - - - - - - - Flowable Fast curing under heat, fast curing at moderate temperatures, No chemical shrinkage, Two-component, Addition Curing, Fast curing at room temperature Highly transparent
LUMISIL® 101RT A/B - - - - - - - - - - - - - - Flowable Fast curing under heat, fast curing at moderate temperatures, No chemical shrinkage, Two-component, Addition Curing, Fast curing at room temperature Highly transparent
LUMISIL® 102 A/B - - - - - - - - - - - - - - Flowable Fast curing under heat, Two-component, Addition Curing Highly transparent
LUMISIL® 102FC A/B 2000 mPa·s[1] 2000 mPa·s[1] - - - - - - 40 - 60[5] 40 - 60[5] - - - - Flowable Fast curing under heat, Two-component, Addition Curing Highly transparent
LUMISIL® 103 HT A/B - - - - - - - - 45 - 65[6] 45 - 65[6] - - - - Flowable Fast curing under heat, fast curing at moderate temperatures, No chemical shrinkage, Two-component, Addition Curing Highly transparent
LUMISIL® 105 A/B - - - - - - - - - - - - - - - Fast curing under heat, Two-component, Addition Curing -
LUMISIL® 105 FC A/B - - - - - - - - - - - - - - Flowable Fast curing under heat, fast curing at moderate temperatures, No chemical shrinkage, Two-component, Addition Curing Highly transparent
LUMISIL® 105 HP A/B - - - - - - - - - - - - - - Flowable Fast curing under heat, Two-component, Addition Curing Highly transparent
LUMISIL® 108 A/B - - - - - - - - - - - - - - Flowable Fast curing under heat, fast curing at moderate temperatures, No chemical shrinkage, Two-component, Addition Curing Highly transparent
LUMISIL® 201 FLEX UV A/B - - - - - - - - - - - - - - Flowable No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 202 UV A/B - - - - - - - - - - - - - - Flowable No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 203 FLEX UV A/B - - - - - - - - - - - - - - Flowable No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 203 Gel UV A/B - - - - - - - - - - - - - - Flowable No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 203 IM UV A/B - - - - - - - - - - ≥ 0.15 MPa ≥ 0.15 MPa ≥ 550 % ≥ 550 % Flowable No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 203 UV A - - - - - - - - - - - - - - Flowable No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 203 UV P A - - - - - - - - - - - - - - Flowable No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 205 FLEX UV A/B - - - - - - - - - - - - - - Flowable No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 205 Gel UV A/B - - - - - - - - - - - - - - Flowable No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 205 UV A/B - - - - - - - - - - - - - - Flowable No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 206 IM UV A/B - - - - - - - - - - - - ≥ 600 % ≥ 600 % Flowable No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 210 UV A/B - - - - - - - - - - - - - - Flowable No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 245 GEL FLEX UV A/B 60000 - 70000 mPa·s[2] 60000 - 70000 mPa·s[2] - - - - - - - - - - - - - No chemical shrinkage, Two-component, UV curing, Addition Curing -
LUMISIL® 245 GEL UV A/B 60000 - 70000 mPa·s[3] 60000 - 70000 mPa·s[3] - - - - - - - - - - - - Flowable No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 245 UV A/B - - - - - - - - - - - - - - Flowable No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 245 UV P - - - - - - - - - - - - - - Flowable No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 307 IM UV A/B - - - - - - - - - - - - - - Flowable No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 307 UV DAM A/B - - - - - - - - - - - - - - - No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 307 UV P A - - - - - - - - - - - - - - - No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 3350 UV 1K - - - - - - - - - - - - - - Flowable No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 402 IM UV A/B - - - - - - 15 15 - - - - - - Flowable No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 402 UV A - - - - - - 27 27 - - - - - - - No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 403 IM UV A/B - - - - - - 20 20 - - - - - - Flowable No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 405 IM UV A/B - - - - - - 55[10] 55[10] - - - - - - Flowable No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
LUMISIL® 409 UV A - - - - - - 45 45 - - - - - - Flowable No chemical shrinkage, Two-component, UV curing, Addition Curing Highly transparent
SEMICOSIL® 811 350000 mPa·s[4] 350000 mPa·s[4] 8 N/mm[12] 8 N/mm[12] - - 30 30 - - 3 N/mm²[7] 3 N/mm²[7] 300 %[9] 300 %[9] - - -
SEMICOSIL® 821 UV A - - - - - - - - - - - - - - Non-slump Two-component, UV curing, Addition Curing -
SEMICOSIL® 823 UV A - - - - - - - - - - - - - - Non-slump Two-component, UV curing, Addition Curing -
SEMICOSIL® 827 UV A - - - - - - - - - - - - - - Non-slump Two-component, UV curing, Addition Curing -
SEMICOSIL® 830 A/B - - - - 15 - 25 min[13] 15 - 25 min[13] (± 5) 30[11] (± 5) 30[11] - - 2 - 5 MPa[8] 2 - 5 MPa[8] - - Non-slump Fast curing under heat, Two-component, Addition Curing -
SEMICOSIL® 830 A/B - - - - 15 - 25 min[13] 15 - 25 min[13] (± 5) 50[11] (± 5) 50[11] - - 7 - 10 MPa[8] 7 - 10 MPa[8] - - Non-slump Fast curing under heat, Two-component, Addition Curing -
SEMICOSIL® 831 A/B - - - - - - (± 5) 60[11] (± 5) 60[11] - - - - - - - Fast curing under heat, No chemical shrinkage, Two-component, Addition Curing Highly transparent
SEMICOSIL® 832 A/B - - - - - - - - - - - - - - Non-slump fast curing at moderate temperatures, No chemical shrinkage, Two-component, Addition Curing, Fast curing at room temperature -
Legend
[1] Viscosity | 25 °C | 10 1/s ,  [2] Viscosity | 25 °C | 10 1/s | ISO 3219,  [3] Viscosity | 25 °C | ISO 3219,  [4] Viscosity, dynamic D=0.5 s⁻¹ | 25.0 °C | ISO 3219,  [5] Hardness (Penetration, 9.38g hollow cone) | Cured for 1 hr at 65'C in a circulating air oven,  [6] Hardness (Penetration, 9.38g hollow cone) | Cure condition: 60'C, 1hr,  [7] Tensile strength | DIN 53504 S2 | measured@25°C on pressed sheet 165°C/15 min,  [8] Tensile strength | DIN ISO 37,  [9] Elongation at break | DIN 53504 S2 | measured@25°C on pressed sheet 165°C / 15 min,  [10] Hardness Shore A | DIN 53505,  [11] Hardness Shore A | ASTM D 2240 Type A,  [12] Tear strength | DIN 53504 S 2 / ISO 37,  [13] Pot life | Brookfield | Time to double viscosity up,  [] Suited,  [] Well suited,  [] Ideally suited 

重要特性:

  • 低模量密封胶
  • 粘接性极佳
  • 可流动型至抗流挂型
  • 可密封盖子与壳体
  • 阻尼特性出众
  • 温度范围广(-45°C至+180°C)
  • 可减缓热机械应力
  • 可靠性、耐久性极强
  • 定制化特性,适用于高效、快速的生产工艺

应用领域:

  • 电子部件
  • 就地成型垫片(FIPG)及就地固化垫片(CIPG)应用
  • PBT、聚酰氨酯、铝制壳体及盖子
  • 适用于自动化工艺

Product Recommendations

Table is scrollable
Products
Technical data
Product properties
Viscosity, dynamic Hardness Shore A Tensile strength Elongation at break Tear strength Pot life Resistance Regulation Product Rheology Crosslinking Property Vulcanizate
ELASTOSIL® A234 WHITE 25000 mPa·s[4] 25000 mPa·s[4] 35[13] 35[13] 2.5 N/mm²[18] 2.5 N/mm²[18] 200 %[26] 200 %[26] 3.5 N/mm[1] 3.5 N/mm[1] - - Heat resistant - - - -
ELASTOSIL® A33 IVORY 1000000 mPa·s[5] 1000000 mPa·s[5] 28[13] 28[13] 2.5 N/mm²[18] 2.5 N/mm²[18] 300 %[26] 300 %[26] 7.8 N/mm[2] 7.8 N/mm[2] - - Oil resistant - Non-slump - -
ELASTOSIL® A59 GRAY 40000 mPa·s[6] 40000 mPa·s[6] 20[13] 20[13] 1.2 N/mm²[18] 1.2 N/mm²[18] 300 %[26] 300 %[26] 3.0 N/mm[1] 3.0 N/mm[1] - - Oil resistant, Heat resistant - Self-levelling - -
ELASTOSIL® E14 Red - - 32[13] 32[13] 2.5 N/mm²[18] 2.5 N/mm²[18] 400 %[26] 400 %[26] 7 N/mm[1] 7 N/mm[1] - - Heat resistant MIL-A 46106 grade Non-slump - -
ELASTOSIL® E4 - - 15[13] 15[13] 2 N/mm²[19] 2 N/mm²[19] 750 %[27] 750 %[27] 7.3 N/mm[1] 7.3 N/mm[1] - - - - Non-slump - -
ELASTOSIL® E43 BLACK 250000 mPa·s[4] 250000 mPa·s[4] 30[13] 30[13] 6.5 N/mm²[20] 6.5 N/mm²[20] 500 %[28] 500 %[28] 11.5 N/mm[1] 11.5 N/mm[1] - - - Solvent-free - - -
ELASTOSIL® E43 N TRANSPARENT - - 30[13] 30[13] 7.8 N/mm²[18] 7.8 N/mm²[18] 450 %[26] 450 %[26] - - - - - - Thixotropic - -
ELASTOSIL® E43 TRANSPARENT 250000 mPa·s[7] 250000 mPa·s[7] 30[13] 30[13] 6.50 N/mm²[19] 6.50 N/mm²[19] 500 %[27] 500 %[27] 11.5 N/mm[1] 11.5 N/mm[1] - - - Solvent-free - - -
ELASTOSIL® E47 TRANSPARENT 600000 mPa·s[7] 600000 mPa·s[7] 37[13] 37[13] 4.5 N/mm²[20] 4.5 N/mm²[20] 450 %[28] 450 %[28] 10 N/mm[1] 10 N/mm[1] - - - MIL-A 46106 grade Non-slump, Thixotropic - -
ELASTOSIL® E50 N TRANSPARENT - - 35[13] 35[13] 2.6 N/mm²[18] 2.6 N/mm²[18] 200 %[26] 200 %[26] - - - - - MIL-A 46106 grade - - -
ELASTOSIL® N 2034 30000 mPa·s[7] 30000 mPa·s[7] 35[13] 35[13] 2 N/mm²[21] 2 N/mm²[21] 200 %[29] 200 %[29] - - - - - Flame retardant - - -
ELASTOSIL® N 2189 250000 mPa·s[7] 250000 mPa·s[7] 45[13] 45[13] 1.5 N/mm²[21] 1.5 N/mm²[21] 200 %[29] 200 %[29] 5.0 N/mm[1] 5.0 N/mm[1] - - Oil resistant, Heat resistant Flame retardant Non-slump - -
ELASTOSIL® N 2199 950000 mPa·s[4] 950000 mPa·s[4] 30[13] 30[13] 2.5 N/mm²[21] 2.5 N/mm²[21] 400 %[29] 400 %[29] 6.5 N/mm[1] 6.5 N/mm[1] - - - - Non-slump - -
ELASTOSIL® N9111 BLACK 1000000 mPa·s[7] 1000000 mPa·s[7] 30[13] 30[13] 2.0 N/mm²[21] 2.0 N/mm²[21] 450 %[30] 450 %[30] 8.5 N/mm[2] 8.5 N/mm[2] - - - Flame retardant Non-slump, Thixotropic - -
ELASTOSIL® N9111 GREY 1000000 mPa·s[7] 1000000 mPa·s[7] 30[13] 30[13] 2.2 N/mm²[21] 2.2 N/mm²[21] 500 %[30] 500 %[30] 10 N/mm[2] 10 N/mm[2] - - - - Non-slump, Thixotropic - -
ELASTOSIL® N9111 WHITE 900000 mPa·s[4] 900000 mPa·s[4] 30[13] 30[13] 2.20 N/mm²[21] 2.20 N/mm²[21] 500 %[30] 500 %[30] 10 N/mm[2] 10 N/mm[2] - - - Flame retardant Non-slump, Thixotropic - -
ELASTOSIL® N9189 - - 45[13] 45[13] 2.8 N/mm²[18] 2.8 N/mm²[18] 330 %[26] 330 %[26] - - - - Heat resistant - Shear thinning, Non-slump - -
ELASTOSIL® RT 624 "4S" A/B VS 60000 mPa·s[7] 60000 mPa·s[7] - - - - - - - - - - - - - - -
SEMICOSIL® 811 350000 mPa·s[8] 350000 mPa·s[8] 30 30 3 N/mm²[22] 3 N/mm²[22] 300 %[31] 300 %[31] 8 N/mm[3] 8 N/mm[3] - - - - - - -
SEMICOSIL® 821 UV A - - - - - - - - - - - - - - Non-slump Two-component, UV curing, Addition Curing -
SEMICOSIL® 823 UV A - - - - - - - - - - - - - - Non-slump Two-component, UV curing, Addition Curing -
SEMICOSIL® 827 UV A - - - - - - - - - - - - - - Non-slump Two-component, UV curing, Addition Curing -
SEMICOSIL® 830 A/B - - (± 5) 30[14] (± 5) 30[14] 2 - 5 MPa[23] 2 - 5 MPa[23] - - - - 15 - 25 min[34] 15 - 25 min[34] - - Non-slump Fast curing under heat, Two-component, Addition Curing -
SEMICOSIL® 830 A/B - - (± 5) 50[14] (± 5) 50[14] 7 - 10 MPa[23] 7 - 10 MPa[23] - - - - 15 - 25 min[34] 15 - 25 min[34] - - Non-slump Fast curing under heat, Two-component, Addition Curing -
SEMICOSIL® 831 A/B - - (± 5) 60[14] (± 5) 60[14] - - - - - - - - - - - Fast curing under heat, No chemical shrinkage, Two-component, Addition Curing Highly transparent
SEMICOSIL® 832 A/B - - - - - - - - - - - - - - Non-slump fast curing at moderate temperatures, No chemical shrinkage, Two-component, Addition Curing, Fast curing at room temperature -
SEMICOSIL® 986/1K 300000 mPa·s[9] 300000 mPa·s[9] 51[15] 51[15] 5 N/mm²[24] 5 N/mm²[24] 200 %[32] 200 %[32] 8 N/mm[1] 8 N/mm[1] - - - - - - -
SEMICOSIL® 987 GR 350000 mPa·s[9] 350000 mPa·s[9] 50[16] 50[16] 5 N/mm²[24] 5 N/mm²[24] 200 %[32] 200 %[32] - - - - - - - - -
SEMICOSIL® 988/1K GRAY KR 440000 mPa·s[10] 440000 mPa·s[10] - - 4.5 N/mm²[25] 4.5 N/mm²[25] 350 %[33] 350 %[33] - - - - - - - - -
SEMICOSIL® 988/1K GREY 440000.0 mPa·s[11] 440000.0 mPa·s[11] 35[17] 35[17] 4.5 N/mm²[25] 4.5 N/mm²[25] 350 %[33] 350 %[33] - - - - - - - - -
SEMICOSIL® 989/1K 300000 mPa·s[12] 300000 mPa·s[12] 55[15] 55[15] 5 N/mm²[24] 5 N/mm²[24] 200 %[32] 200 %[32] - - - - - - - - -
Legend
[1] Tear strength | ASTM D 624 B,  [2] Tear strength | ASTM D 624 B | 23°C / 2mm,  [3] Tear strength | DIN 53504 S 2 / ISO 37,  [4] Viscosity, dynamic D = 0,5 1/s | 25 °C | DIN EN ISO 3219,  [5] Viscosity, dynamic | 25 °C | 0.5 1/s | DIN EN ISO 3219,  [6] Viscosity, dynamic | 25 °C | DIN EN ISO 3219,  [7] Viscosity, dynamic D = 0.5 1/s | 25 °C | DIN EN ISO 3219,  [8] Viscosity, dynamic D=0.5 s⁻¹ | 25.0 °C | ISO 3219,  [9] Viscosity, dynamic (D = 0.5 s⁻¹) | 25 °C | ISO 3219,  [10] Viscosity, dynamic (D = 0.5 sec⁻¹) | 25 °C | ISO 3219,  [11] Viscosity, dynamic (D = 0.5 sec⁻¹) | 25.0 °C | ISO 3219,  [12] Viscosity, dynamic (shear rate = 0,5 s⁻¹) | 25 °C | DIN EN ISO 3219,  [13] Hardness Shore A | DIN ISO 48-4,  [14] Hardness Shore A | ASTM D 2240 Type A,  [15] Hardness Shore A | ISO 868,  [16] Hardness Shore A | ASTM D 2240,  [17] Hardness Shore A | ASTM D 2240 | Measured at 23°C; Cured for 30 min at 150°C in a circulating oven,  [18] Tensile strength | ISO 37 type 1,  [19] Tensile strength | ISO 37 type 1 | Type 3 / 23°C / 2mm,  [20] Tensile strength | ISO 37 type 1 | Type 3 /23°C / 2mm,  [21] Tensile strength | ISO 37 | Type 3 / 23°C / 2mm,  [22] Tensile strength | DIN 53504 S2 | measured@25°C on pressed sheet 165°C/15 min,  [23] Tensile strength | DIN ISO 37,  [24] Tensile strength | DIN 53504 S2,  [25] Tensile strength | DIN 53504 S2 | measured at 23°C on pressed sheet 165°C/15 min,  [26] Elongation at break | ISO 37 type 1,  [27] Elongation at break | ISO 37 type 1 | Type 3 / 23°C / 2mm,  [28] Elongation at break | ISO 37 type 1 | Type 3 /23°C / 2mm,  [29] Elongation at break | ISO 37,  [30] Elongation at break | ISO 37 | Type 3 / 23°C / 2mm,  [31] Elongation at break | DIN 53504 S2 | measured@25°C on pressed sheet 165°C / 15 min,  [32] Elongation at break | DIN 53504 S2,  [33] Elongation at break | DIN 53504 S2 | measured at 23°C on pressed sheet 165°C/15 min,  [34] Pot life | Brookfield | Time to double viscosity up,  [] Suited,  [] Well suited,  [] Ideally suited 

紫外固化有机硅可在室温条件下进行紫外线诱导固化反应,让加工时间变得极短,生产线产量得以提高,从而缩短生产时间,降低能源成本。

优势:

  • 介电强度高
  • 介电绝缘性能可靠
  • 生产工艺效率高

应用领域:

  • 功率半导体
  • 发电机
  • 汽车/电动汽车

Product Recommendations

Table is scrollable
Products
Technical data
Product properties
Viscosity, dynamic Hardness Shore A Tensile strength Elongation at break Tear strength Pot life Penetration Hardness Shore 00 Regulation Crosslinking Property Vulcanizate
ELASTOSIL® CAT UV 1000 mPa·s[1] 1000 mPa·s[1] - - - - - - - - ≥ 1 d[10] ≥ 1 d[10] - - - - - - -
SEMICOSIL® 911 A/B 8000 mPa·s[2] 8000 mPa·s[2] - - - - - - - - - - - - - - Low volatile Two-component, Addition Curing low ion content
SEMICOSIL® 942 UV A/B 3300 mPa·s[2] 3300 mPa·s[2] - - - - - - - - - - - - - - - - -
SEMICOSIL® 949 UV A 150.0 mPa·s[3] 150.0 mPa·s[3] - - - - - - - - - - - - 40[11] 40[11] - - -
SEMICOSIL® 949 UV B 150.0 mPa·s[3] 150.0 mPa·s[3] - - - - - - - - - - - - 40[11] 40[11] - - -
SEMICOSIL® 950 UV B 1000 mPa·s[4] 1000 mPa·s[4] - - - - - - - - - - - - 40.0[12] 40.0[12] - - -
SEMICOSIL® 961 TC A/B 130000 mPa·s[5] 130000 mPa·s[5] - - - - - - - - - - - - 55[13] 55[13] - - -
SEMICOSIL® 986/1K 300000 mPa·s[6] 300000 mPa·s[6] 51[14] 51[14] 5 N/mm²[16] 5 N/mm²[16] 200 %[18] 200 %[18] 8 N/mm[20] 8 N/mm[20] - - - - - - - - -
SEMICOSIL® 988/1K GRAY KR 440000 mPa·s[7] 440000 mPa·s[7] - - 4.5 N/mm²[17] 4.5 N/mm²[17] 350 %[19] 350 %[19] - - - - - - - - - - -
SEMICOSIL® 988/1K GREY 440000.0 mPa·s[8] 440000.0 mPa·s[8] 35[15] 35[15] 4.5 N/mm²[17] 4.5 N/mm²[17] 350 %[19] 350 %[19] - - - - - - - - - - -
SEMICOSIL® 989/1K 300000 mPa·s[9] 300000 mPa·s[9] 55[14] 55[14] 5 N/mm²[16] 5 N/mm²[16] 200 %[18] 200 %[18] - - - - - - - - - - -
WACKER SilGel® 613 - - - - - - - - - - - - 70 1/10mm[21] 70 1/10mm[21] - - - - -
Legend
[1] Viscosity, dynamic | 25 °C | ISO 3219,  [2] Viscosity A [D=0,5 s⁻¹] | 25 °C | DIN EN ISO 3219,  [3] Viscosity, dynamic | 25.0 °C | DIN EN ISO 3219,  [4] Viscosity, dynamic | DIN EN ISO 3219 | A: SEMICOSIL® 949 UV A; B: SEMICOSIL® 950 UV B,  [5] Viscosity, dynamic Cone-plate-viscosimeter Component A | 23 °C | ISO 3219, D = 10 1/s,  [6] Viscosity, dynamic (D = 0.5 s⁻¹) | 25 °C | ISO 3219,  [7] Viscosity, dynamic (D = 0.5 sec⁻¹) | 25 °C | ISO 3219,  [8] Viscosity, dynamic (D = 0.5 sec⁻¹) | 25.0 °C | ISO 3219,  [9] Viscosity, dynamic (shear rate = 0,5 s⁻¹) | 25 °C | DIN EN ISO 3219,  [10] Pot life | Typical Value for 25°C for which doubling of mix viscosity in static mixing tube is referred to, [not exposed to UV light or ambient light, depending on addition curing silicone grade]; No processing with premix recommended,  [11] Shore 00 | 23 °C | ASTM D 2240 | 10 sec 140 mW/cm² followed by 30 min 150°C,  [12] Hardness Shore 00 | 23 °C | ASTM 2240 / Type 00 | Curing Conditions: 10 sec / 140 mW/cm2 followed by 30 min 150°C; measured@23°C,  [13] Hardness Shore 00 | ASTM D 2240,  [14] Hardness Shore A | ISO 868,  [15] Hardness Shore A | ASTM D 2240 | Measured at 23°C; Cured for 30 min at 150°C in a circulating oven,  [16] Tensile strength | DIN 53504 S2,  [17] Tensile strength | DIN 53504 S2 | measured at 23°C on pressed sheet 165°C/15 min,  [18] Elongation at break | DIN 53504 S2,  [19] Elongation at break | DIN 53504 S2 | measured at 23°C on pressed sheet 165°C/15 min,  [20] Tear strength | ASTM D 624 B,  [21] Penetration (hollow cone, 9.38 g) | DIN ISO 2137,  [] Suited,  [] Well suited,  [] Ideally suited