3M™ Trizact™ Cloth Belt 237AA

3M Trizact Cloth Belt 237AA uses proprietary microreplication technology by 3M where micron-graded aluminum oxide particles are formed into tiny pyramids of abrasive mineral and then coated on an X weight cloth backing. 3M Trizact Cloth Belt is typically used in mild steel, stainless steel, nickel, cobalt alloys, aluminum, brass, copper and titanium applications.

What is 7+4?

Products Description

  • Self-sharpening pyramids start sharp, stay sharp, and run cooler than conventional abrasives
  • Flexible backing for consistent finish over contours
  • Three-dimensional design enables very consistent finishes throughout the abrasive life in robotic applications
  • For intermediate finishing and fine polishing prior to plating or buffing
  • Ideal for intermediate finishing and fine polishing prior to plating or buffing
  • Produces finer finishes than conventional electrostatically coated abrasives

Built For Dimensioning and Scratch Refinement
The abrasive and resin structure for the 3M Trizact Cloth Belt 237AA is formulated to break down under medium pressure and keep fresh, sharp mineral cutting to provide consistent finishes on hard metals such as carbon and stainless steel. Our belt also features a grinding aid that helps prevent heat buildup, warping and discoloration. The belt is constructed on an X-weight, durable cloth backing that helps provide control, conformability, and effective medium-pressure grinding. The resin bonded abrasive gives you greater heat resistance and helps prevent delamination.

Runs Smooth, Finishes Consistently
The belt uses a Film Media Splice, a strong secure bond joining the belt ends, consisting of a thin film-joining media that minimizes “chatter marks,” ensures a smooth running belt, and consistent finishing results. When compared to conventional abrasive products, proprietary Trizact™ abrasives produce a finer finish, achieve results faster, and last longer.

Ideal for Robotic Finishing and Polishing
Robotic metal polishing demands the most consistent, refined cut and long abrasive life. 3M Trizact abrasives can consistently deliver near-mirror finishes while also delivering the abrasive life that helps reduce changeouts and downtime in robotic cells. This helps maximize the efficiency of the cell, allowing you to produce more parts per belt.

The Science of Flawless Finishes
Unlike conventional abrasives, our line of 3M Trizact belts start sharp and stay sharp, resulting in more predictable finishes and improved, consistent quality. 3M Trizact belts can last up to five times longer than conventional belts and provide precise finish control such that operators can reduce grade sequences, requiring fewer process steps and fewer abrasive products. Three-dimensional structures uniformly distributed over the entire surface of 3M Trizact abrasives ensure consistent performance and eliminate part to part variation.

3M Trizact belt 237AA uses 3M’s proprietary microreplication technology to form micron-sized aluminum oxide particles into small pyramids of abrasive minerals, which are then coated onto an X-weight cloth backing. As these pyramids are worn, fresh, sharp minerals are continuously exposed for a consistent cut and predictably fine appearance.

Product detail & Main specification

Abrasive Material

Aluminum Oxide

Application

Finishing, Grinding, Polishing, Sanding

Backing Material

Cloth

Backing Weight

X Weight

Brand

Trizact™

Color Family

Gray

Equipment – Machines

Bench Top Motors, Centerless Grinders, Cylindrical Grinders, Edge Sanders, File Belt Sanders, Inline Sanders, Manual Backstand, Pressure Assit Backstand, Stroke Sanders, Wide Belt Sanders

Form Type

Scalloped Edge

For Use On

Aluminum, Carbon Steel, High Nickel Alloy, Soft Metals, Stainless Steel, Titanium/Zirconium

Industries

Marine, Metalworking

Micron Grade

A100, A16, A160, A30, A45, A5, A6, A65, A80

Splice Type

Fabri-lok, Film-lok, Sine Wave

Substrate

Aluminum, Carbon Steel, High Nickel Alloy, Soft Metal, Stainless Steel, Titanium, Zirconium

Product application

 

Certificate

          

Latest News