POM Engineering Plastic

POM Engineering Plastic Specification

Product Type
POM Engineering Plastic

Plastic Type
Polyacetal (POM)

Plastic Molding Type
Extruding

Thickness
10-100 mm

Density
1.42 Gram per cubic centimeter(g/cm3)

Strength
High tensile strength

Shape
Sheet, Rod

Melting Point
175C (approx.)

Water Absorption
Low

Elongation at Break
20-40%

Hardness
85-90 Shore D

Application
Automotive, Electrical, Machinery

Flame Retardant
No

Surface Finish
Smooth

Processing Temperature
190-230C

Operating Temperature
-40C to +100C

Impact Resistance
Excellent

Color
White, Black

POM Engineering Plastic Trade Information

Minimum Order Quantity
100 Units

Payment Terms
Cash in Advance (CID)

Supply Ability
5000 Units Per Month

Delivery Time
7 Days

Main Domestic Market
All India

About POM Engineering Plastic

SHEETS:

2000 x 1000 x 5- 60mm
2000 x 620 x 8 - 100mm
1000 x 620 x 110 - 150mm

RODS: DIA 5-200 x 1000mm

STANDARD COLOURS: White & Black

ADVANTAGES:

Good machinability
Good UV-resistance
Low creep tendency
High thermal stability
High abrasion resistance
High dimensional stability
Resistant to stress cracks
Low absorption of moisture
Good electrical properties
High resistance to solvents
Outstanding sliding properties

APPLICATIONS:

Seals
Wipers
Rollers
Bearings
Housings
Sprockets
Insulators
Chain guide
Sliding rails
Gear wheels
Dough elements

Reliable Performance Across Applications

POM Engineering Plastic is highly valued for its robust physical properties and reliability, ensuring consistent performance in automotive parts, electrical components, and industrial machinery. Its high impact resistance and minimal water absorption enable it to deliver long-lasting results, even in demanding environments. The smooth surface finish further enhances its suitability for precision-engineered components.

Versatile Processing and Easy Fabrication

This material's broad processing temperature range (190-230C) allows manufacturers flexibility during extrusion and molding. The high melting point (175C) and customizable thickness (10-100 mm) enable the production of both sheets and rods tailored to diverse industrial needs. With POM plastic, fabricators achieve intricate shapes without compromising mechanical strength.

FAQ's of POM Engineering Plastic:

Q: How is POM Engineering Plastic processed for use in manufacturing?

A: POM Engineering Plastic is processed primarily through extrusion techniques, with recommended processing temperatures between 190C and 230C. This allows for the production of sheets and rods in various thicknesses (10-100 mm) while maintaining the material's strength and dimensional integrity.

Q: What makes POM Engineering Plastic suitable for automotive and electrical applications?

A: The combination of high tensile strength, excellent impact resistance, low water absorption, and a wide operating temperature range (-40C to +100C) makes POM ideal for automotive and electrical components that require durability, precision, and longevity.

Q: When should I choose POM plastic over other engineering plastics?

A: POM is preferred when applications demand high mechanical strength, excellent wear resistance, and stable performance in varying thermal environments. Its smooth surface finish and ease of machining make it suitable for precision parts in machinery, automotive, and electrical uses.

Q: Where can POM Engineering Plastic be sourced in India?

A: POM Engineering Plastic is widely available from specialized manufacturers, suppliers, and traders across India. It can be sourced in sheet or rod form, tailored to specific project requirements and delivered throughout major industrial hubs.

Q: What are the benefits of using POM plastic in machinery components?

A: Benefits include its high tensile strength, excellent impact resistance, low friction coefficient, and minimal water absorption. These properties ensure machinery components last longer, endure mechanical stress well, and require less maintenance over time.

Q: How does the surface finish of POM Engineering Plastic enhance its usage?

A: The smooth surface finish of POM plastic reduces friction between moving parts and contributes to wear resistance. This characteristic is particularly advantageous for components requiring precise tolerances and efficient movement, such as bearings and gears.