导热双面胶供应商厂家

恒辉胶粘导热双面胶供应商厂家，专业供应各类LED导热双面胶供应商，导热胶带等产品，公司的价格公道，产品质量良好，深受广大客户的好评。作为大型的导热双面胶供应商厂家，我们供应的产品还包括各种导热硅胶片、导热双面胶供应商、导热硅胶布、导热石墨片、硅胶加热片、导热灌封胶、矽胶帽套、石墨散热膜、导热绝缘材料等。
导热双面胶供应商使用主要是考虑其机械粘合剂特性，而较少考虑其热特性。这些粘合带的导热系数一般，它们在应用当中的热性能取决于在粘合表面之间可实现的接触面积。BPLY导热双面胶供应商以多种形式提供，具有导热、绝缘和阻燃特性，提供定制冲切配置，能够满足多种实际应用。使用时不再需要机械式连接（如螺钉、夹片、铆钉和紧固件），满足UL 认证的 V-0 级易燃性同时符合 RoHS 规范，使用后返修方便。
导热双面胶供应商厂家告诉你导热双面胶供应商的特性：
第 1 步：确保粘合面上没有油污、灰尘或任何可能影响粘合效果的污染物。佩戴橡胶手套，用蘸有工业溶剂（如 MEK（丁酮）、甲苯、丙酮或异丙醇）的布擦拭粘合面。
第 2 步：按所需尺寸※剪切导热双面胶供应商，然后从整卷导热双面胶供应商中取出衬垫或预剪切带。
注意：由于散热片表面不尽相同，EMI公司数据表明有时候令剪下的面积稍小于散热片面积会更好。请参阅插图。
第 3 步：将导热双面胶供应商粘贴至散热片粘合区域的中央位置，然后以中等力度用手按压并抚平整个表面。可以使用滚筒自散热片粘合区域导热双面胶供应商中央位置向外滚轧，以抚平导热双面胶供应商并使其平整地粘贴到零件表面。这样能够确保导热双面胶供应商和散热片间的接触。
第 4 步：将散热片对准部件中央，然后使用推荐的温度/压力选项中的任何一种进行粘贴：最小：室温下 10 psi，持续 15 秒：室温下 30 psi，持续 5 秒施加更大的压力可以使粘合剂更好地浸润接触面。在组装衬底时作扭转运动能够极大地改善浸润效果。
请注意，在最初应用时一般只能达到最终粘合力的 70%，在 15 分钟内会达到 80-90%。在 36 小时内将达到最终粘合力；但通常会在最初应用后即进行下一制造步骤。
信息来源：导热双面胶供应商厂家 东莞导热双面胶供应商 LED导热双面胶供应商
Shenzhen Union Teng Dakota Co., Ltd. is a large double-sided thermal adhesive manufacturers, professional supply all kinds of LED thermal double-sided adhesive thermal tape and other products, the company's reasonable price, good quality, well received by customers. As a large thermal conductivity of double-sided adhesive manufacturer, we supply products also include a variety of thermal silica films, thermal double-sided adhesive, thermal silica cloth, thermal conductivity of graphite, silicon heating plate, the thermal conductivity encapsulants, silicone caps, graphite heat membrane, thermal insulation materials.
Use double-sided thermal adhesive binder is mainly on account of its mechanical properties, thermal properties and less consideration. The thermal conductivity of bonding with the general, they are in the application which depends on the thermal properties of adhesion can be achieved between the contact surface area. BPLY thermal double-sided adhesive to the diversity of supply, with thermal insulation and fire retardant properties, provide custom cutting configurations to meet a variety of practical applications. No longer need to use the mechanical connection (such as screws, clips, rivets and fasteners), certified to meet UL flammability class V-0 also RoHS compliant, easy to use after the repair.
Double-sided thermal adhesive double-sided adhesive manufacturers to tell you the characteristics of thermal conductivity:
Step 1: Make sure there is no adhesive surface oil, dirt or any contaminants that may affect the bonding effect. Wear rubber gloves, moistened with industrial solvents (such as MEK (methyl ethyl ketone), toluene, acetone or isopropyl alcohol) and cloth adhesive surface.
Step 2: Cut the desired size of ※ double-sided adhesive thermal conductivity, thermal conductivity from the entire volume to remove double-sided adhesive pad or pre-shear zone.
Note: Due to different heat sink surface, EMI cut the company's data show that sometimes make the area a little smaller than the heat sink area will be better. Please refer to the illustrations.
Step 3: The double-sided adhesive thermal paste to heat sink bonding region's central location, and then pressing his hand to moderate intensity and smooth the surface. You can use drum from the heat sink thermal conductivity of double-sided adhesive bond area rolling out a central location in order to heal and make double-sided adhesive thermal paste into a smooth part surface. This double-sided adhesive to ensure thermal and optimal contact between the heat sink.
Step 4: Align the heat sink the central parts, and then use the recommended temperature / pressure option to paste in any one of: minimum: room temperature, 10 psi, 15 sec of choice: room temperature, 30 psi, applied for 5 seconds greater pressure to make a better infiltration of adhesive contact. When the assembly substrate for reverse movement can greatly improve the wetting.
Please note that in the initial application to final adhesion is generally only 70% within 15 minutes to reach 80-90%. Within 36 hours to reach the final adhesion; but usually after the initial application to the next manufacturing step.