Tag Archive

Two Shot Molding | Multi-Station Molds: Transfer Molds

For Two Shot Molding, a multi-shot mold is needed. There are several types of multi-shot molding available, such as over-molds, core-back, and multi-station molds. The right mold selection depends on part geometry, volume, quality, and molder capacity/capability.

Silicon Injection Moulding | Multi-Station Molds: Rotational Molds

In 2-Shot injection molding, a polymer is injected over a molded plastic insert to combine the best features of different materials while reducing or eliminating additional assembly operations. This reduction or elimination of post-processing steps is one of the biggest economical advantages of the 2-Shot silicone injection moulding process. For this kind of silicone injection moulding, a multi-shot mold is needed. There are several types of multi-shot silicone injection moulding available, such as over-molds, core-back, and multi-station molds. The right mold selection depends on part geometry, volume, quality, and molder capacity/capability.

Making Silicone Parts: The Chemistry That Makes LSR Such an Outstanding Material

Liquid Silicone Rubber (LSR) is part of the family of thermoset elastomers that have a backbone of alternating silicone and oxygen atoms with methyl (-CH3) or vinyl side groups (-CH=CH2). They offer outstanding properties for making silicone parts, not obtainable with today’s TPEs. The solidification process of all heat-activated thermosets, including silicone rubber, is dominated by an exothermic and irreversible chemical reaction called cure, vulcanization or network polymerization. The curing process when making silicone parts, forms a three dimensional network in which each chain is connected to all others by a sequence of junction points. The curing process of making silicone parts improves the general properties of the final product when making silicone parts and provides resistance to heat and hot air (180˚C, stabilized up to 250˚C, short-term up to 300˚C), due to the fact that these network polymers do not melt upon heating. The curing of Liquid Silicone Rubber (LSR) is almost exclusively carried out with a platinum-catalyzed hydrosilylation reaction, which does not generate by-products.