What Materials are Used in Injection Molding?
You are here: Home » News » What Materials are Used in Injection Molding?

What Materials are Used in Injection Molding?

Publish Time: 2023-01-13     Origin: Site

As we all know, there are many types of materials that may be used in the injection molding process. Most polymers may be used, including all thermoplastics, some thermosets, and some elastomers. When these materials are used in the injection molding process, their raw form is usually small pellets or a fine powder.


Also, colorants may be added in the process to control the color of the final part. The selection of a material for creating injection molded parts is not solely based upon the desired characteristics of the final part.


While each material has different properties that will affect the strength and function of the final part, these properties also dictate the parameters used in processing these materials.

Each material requires a different set of processing parameters in the injection molding process, including the injection temperature, injection pressure, mold temperature, ejection temperature, and cycle time. A comparison of some commonly used materials is shown below:

Material name

Abbreviation

Trade names

Description

Applications

Acetal

POM

Celcon, Delrin, Hostaform, Lucel

Strong, rigid, excellent fatigue   resistance, excellent creep resistance, chemical resistance, moisture   resistance, naturally opaque white, low/medium cost

Bearings, cams, gears, handles, plumbing   components, rollers, rotors, slide guides, valves

Acrylic

PMMA

Diakon, Oroglas, Lucite, Plexiglas

Rigid, brittle, scratch resistant,   transparent, optical clarity, low/medium cost

Display stands, knobs, lenses, light   housings, panels, reflectors, signs, shelves, trays

Acrylonitrile Butadiene Styrene

ABS

Cycolac, Magnum, Novodur, Terluran

Strong, flexible, low mold shrinkage   (tight tolerances), chemical resistance, electroplating capability, naturally   opaque, low/medium cost

Automotive (consoles, panels, trim,   vents), boxes, gauges, housings, inhalors, toys

Cellulose Acetate

CA

Dexel, Cellidor, Setilithe

Tough, transparent, high cost

Handles, eyeglass frames

Polyamide 6 (Nylon)

PA6

Akulon, Ultramid, Grilon

High strength, fatigue resistance,   chemical resistance, low creep, low friction, almost opaque/white,   medium/high cost

Bearings, bushings, gears, rollers, wheels

Polyamide 6/6 (Nylon)

PA6/6

Kopa, Zytel, Radilon

High strength, fatigue resistance,   chemical resistance, low creep, low friction, almost opaque/white,   medium/high cost

Handles, levers, small housings, zip   ties

Polyamide 11+12 (Nylon)

PA11+12

Rilsan, Grilamid

High strength, fatigue resistance,   chemical resistance, low creep, low friction, almost opaque to clear, very   high cost

Air filters, eyeglass frames, safety   masks

Polycarbonate

PC

Calibre, Lexan, Makrolon

Very tough, temperature resistance,   dimensional stability, transparent, high cost

Automotive (panels, lenses, consoles),   bottles, containers, housings, light covers, reflectors, safety helmets and   shields

Polyester - Thermoplastic

PBT, PET

Celanex, Crastin, Lupox, Rynite, Valox

Rigid, heat resistance, chemical   resistance, medium/high cost

Automotive (filters, handles, pumps),   bearings, cams, electrical components (connectors, sensors), gears, housings,   rollers, switches, valves

Polyether Sulphone

PES

Victrex, Udel

Tough, very high chemical resistance,   clear, very high cost

Valves

Polyetheretherketone

PEEKEEK


Strong, thermal stability, chemical   resistance, abrasion resistance, low moisture absorption

Aircraft components, electrical   connectors, pump impellers, seals

Polyetherimide

PEI

Ultem

Heat resistance, flame resistance,   transparent (amber color)

Electrical components (connectors,   boards, switches), covers, sheilds, surgical tools

Polyethylene - Low Density

LDPE

Alkathene, Escorene, Novex

Lightweight, tough and flexible,   excellent chemical resistance, natural waxy appearance, low cost

Kitchenware, housings, covers, and   containers

Polyethylene - High Density

HDPE

Eraclene, Hostalen, Stamylan

Tough and stiff, excellent chemical   resistance, natural waxy appearance, low cost

Chair seats, housings, covers, and   containers

Polyphenylene Oxide

PPO

Noryl, Thermocomp, Vamporan

Tough, heat resistance, flame   resistance, dimensional stability, low water absorption, electroplating   capability, high cost

Automotive (housings, panels),   electrical components, housings, plumbing components

Polyphenylene Sulphide

PPS

Ryton, Fortron

Very high strength, heat resistance,   brown, very high cost

Bearings, covers, fuel system   components, guides, switches, and shields

Polypropylene

PP

Novolen, Appryl, Escorene

Lightweight, heat resistance, high   chemical resistance, scratch resistance, natural waxy appearance, tough and   stiff, low cost.

Automotive (bumpers, covers, trim),   bottles, caps, crates, handles, housings

Polystyrene - General purpose

GPPS

Lacqrene, Styron, Solarene

Brittle, transparent, low cost

Cosmetics packaging, pens

Polystyrene - High impact

HIPS

Polystyrol, Kostil, Polystar

Impact strength, rigidity, toughness,   dimensional stability, naturally translucent, low cost

Electronic housings, food containers,   toys

Polyvinyl Chloride - Plasticised

PVC

Welvic, Varlan

Tough, flexible, flame resistance,   transparent or opaque, low cost

Electrical insulation, housewares,   medical tubing, shoe soles, toys

Polyvinyl Chloride - Rigid

UPVC

Polycol, Trosiplast

Tough, flexible, flame resistance,   transparent or opaque, low cost

Outdoor applications (drains, fittings,   gutters)

Styrene Acrylonitrile

SAN

Luran, Arpylene, Starex

Stiff, brittle, chemical resistance,   heat resistance, hydrolytically stable, transparent, low cost

Housewares, knobs, syringes

Thermoplastic Elastomer/Rubber

TPE/R

Hytrel, Santoprene, Sarlink

Tough, flexible, high cost

Bushings, electrical components, seals,   washers

The Cost of Injection Molding Materials

The material cost is determined by the weight of material that is required and the unit price of that material. The weight of material is clearly a result of the part volume and material density; however, the part's maximum wall thickness can also play a role. The weight of material that is required includes the material that fills the channels of the mold. The size of those channels, and hence the amount of material, is largely determined by the thickness of the part.


Conclusion


TEAM MFG is a rapid manufacturing company who specializes in ODM and OEM. We provide leading Injection molding source for prototyping and on-demand manufacturing. We are the World's fastest Injection molding company. Get an online quote today.

Contact us

TEAM MFG is a rapid manufacturing company who specializes in ODM and OEM starts in 2015.

Tel

+86-0760-88508730

Phone

+86-15625312373
Copyrights   2024 Team Rapid MFG Co., Ltd. All rights reserved.