A series of "Synergistic" surface enhancement coatings that protect parts made of aluminum and aluminum alloys against wear, corrosion, sticking and galling. Brochure includes engineering data and application examples.

A series of "Synergistic" surface enhancement coatings that protect most metals - including aluminum - against wear, corrosion, sticking, galling and static buildup. Brochure includes engineering data, charts, and diagrams as well as numerous application examples.

The Canadize process augments surface hardness through the infusion of selected proprietary polymers or dry lubricants resulting in a fracture-free coating for titanium and titanium alloys.

The LECTROFLUOR series of high-technology polymer-based surface enhancement coatings improves the wear characteristics and performance of all types of metals. It especially provides superior resistance to corrosion and chemical attack in hostile environments.

Recognized by the Guinness Book of Records as the solid with the lowest COF in the world, this space-age, dry-film lubricant solves critical problems of wear, galling and fretting on steel, stainless steel and copper alloys at high and low temperature extremes, even under heavy loads. The coating consists of a matrix of metallic layers, and becomes a permanent, integral part of the base metal.

This brochure provides critical engineering data on General Magnaplate's full range of synergistic surface enhancing coatings. It also provides key information on which coatings are best suited to certain applications.

These non-stick, self-lubricating release coatings prevent residue buildup on adhesives, glue, tape, and labeling equipment metal parts. Product sheet includes engineering data and suggested applications.

This datasheet describes MAGNAPLATE HMF, a proprietary, multi-step coating process that creates an extremely hard, mirror-smooth, highly reflective microfinish on the surface of ferrous metal, copper or aluminum alloy components. It effectively ensures against galling and seizing.

DYNALOY is an enhanced proprietary chrome process that produces a thin, dense, uniform coating which features superior adherence and no edge buildup. Product sheet details engineering data, friction test chart, and application examples.

This surface enhancement technology enhances corrosion resistance and hardness of parts made of aluminum and aluminum alloys. Product sheet features engineering data and charts containing results of friction and salt spray tests conducted on coated parts.

Contains descriptions and information on all thirteen of General Magnaplate's problem-solving surface enhancement coatings for metal. It contains information on each coating and the type of metal on which the coating can be used. It also describes each coating's key problem-solving benefits.

The release efficiency of steel, copper, brass, aluminum and other metals used in the fabrication of molds and dies for a wide range of industries is increased. This surface enhancement coating creates a permanent, non-stick surface that exhibits a very low coefficient of friction in addition to offering superior wear resistance. The HTR coating can also be modified to meet your special requirements for thermal and/or electrical conductivity.

The 10K series of high-performance coatings has been developed to deliver outstanding release properties to ferrous and non-ferrous parts exposed to continuous temperatures of up to 900°F, or intermittent temperatures of 1000°F. 

A solid lubricant coating that offers low friction properties to metal parts for lubricity and release at temperatures up to 550°C. 

Delivers antimicrobial protection for metal parts while delivering a low coefficient of friction, water-resistance, wear and corrosion resistance, and release properties.  The coating technology protects against the risk for contamination to equipment during the manufacturing process that can lead to food borne diseases.

A new, patented process cuts time and costs of making layup-molds used in fabricating large, contour-shaped composite parts. This process saves both time and money for fabricators of parts constructed from composite materials. It reduces total time generally required to make layup-molds (toolfaces) from the conventional six-to-12 months to as little as six weeks.

New Spotlight Report details mold and die release, wear and corrosion solutions.

New Spotlight Report on Solving Packaging and Processing Equipment Sanitation, Performance and Maintenance Problems.

New Spotlight Report illustrates packaging equipment efficiency and performance enhancements.