Use when large amounts of heat must be extracted in short periods of time

Install coolant circulating channels like conventional mold for maximum benefits when possible

Utilize copper alloys in mold area where ideal coolant channel installation is not possible

In small diameter multiple core pin applications, seat core pins on a chill plate

In High wear applications, such as running glass filled materials, nickel or thin dense chrome plate alloy

Apply zero preload on shut offs at parting lines and core pin shut offs due to ductility of the copper alloy
(plastic will not flash with zero clearance at shut offs)

Ensure good contact with mating surfaces to maximize cooling transfer

Cap ends of cores when cooling is required at tip end and the hardness of steel is required on the seat end

Extreme shut off areas can be welded with stainless steel to extend mold life

Insert copper alloys in corners of mold cores to enhance cooling

Insert mold areas when heavier wall sections are present on the plastic part

Use when molding corrosive plastics

Runner channels can be inserted with copper alloys so the runner does not dictate the molding cycle

Use the right combination of properties to provide maximum performance in the mold

MOLD-MOR 3 & 4, with its higher harness levels, provides an excellent balance of hardness and high tensile strength

MOLD-MOR 2, with its high thermal conductivity, works well when a high rate of heat must be transferred

MOLD-MOR 1, offers an exceptional range of benefits and provides the fastest mold cycle and most consistent mold surface temperature

MOLD-MOR 1, provides an exceptional good base for application of nickel and thin dense chrome plating

Cadi copper alloys will solve your mold cooling challenges more economically

MOLD-MOR is a registered trademark of Cadi Company, Inc. Copyright 2000