PET
Key Properties of PET
These properties make Polyethylene Terephthalate (PET) suitable for industrial applications involving precision machining, wear resistance, dimensional accuracy, low moisture exposure, and consistent mechanical performance.
PET Industrial Applications
Polyethylene Terephthalate (PET) components are widely used across industries for applications that require dimensional stability, wear resistance, low moisture absorption, good strength, and precision machining.
Polyethylene Terephthalate (PET) is ideal for applications involving close tolerances, wear resistance, dimensional accuracy, low moisture exposure, and consistent mechanical performance.
PET Stock Shapes
Plastic Engineering Solution supplies Polyethylene Terephthalate (PET) in multiple stock shapes and machined forms, including:
PET Rods
PET Plates
PET Tubular bar
OD - 200mm x ID - 100mm x LT - 2000mm)
All PET products are supplied and machined to support industrial applications requiring dimensional stability, wear resistance, low moisture absorption, mechanical strength, and precision performance.
PET Grades Supported
We support a range of Polyethylene Terephthalate (PET) material grades, including:
Our team assists with PET grade selection based on dimensional stability, wear resistance, moisture exposure, machining requirements, food-contact needs, and operating conditions.
PET Machining
Polyethylene Terephthalate (PET) is well-suited for precision machining because of its dimensional stability, low moisture absorption, and good mechanical strength. It can be machined into accurate, repeatable components for industrial applications where stability and wear performance are important.
Our PET machining capability includes:
- CNC turning and milling
- Precision profiling and contouring
- Close-tolerance component machining
- Roller, guide, and wear-part manufacturing
- Prototype and repeat production
- Machining based on application-specific requirements
We optimize machining parameters to achieve clean finishes, accurate dimensions, smooth surfaces, and reliable performance for PET components used in precision industrial applications.
PET Machining Tolerances
Polyethylene Terephthalate (PET) machining tolerances depend on:
Component geometry
Wall thickness
 Part size and complexity
Operating conditions
Application requirements
Required fit and function
Typical achievable tolerances are maintained as per design feasibility.
Detailed tolerance information can be provided during the RFQ stage.
