About Polyoxymethylene storage modulus range
Dimensional stability under heat Vicat softening temperature Crystalline melting range Thermal conductivity at 23°C Specific heat at 23°C Coefficient of linear expansion at 23°C Fire behaviour Application temperature (min.) Application temperature (constant) Moisture absorption.
Dimensional stability under heat Vicat softening temperature Crystalline melting range Thermal conductivity at 23°C Specific heat at 23°C Coefficient of linear expansion at 23°C Fire behaviour Application temperature (min.) Application temperature (constant) Moisture absorption.
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The following table provides a comprehensive list of polyoxymethylene (POM) properties in both SI and US customary/Imperial units at normal temperature and pressure (NTP). Click on the button to switch between Metric and Imperial units. Unless stated otherwise, all values are taken at room.
Polyoxymethylene is a semi-crystalline thermoplastic polymer that is also known as polyacetal. POM is available as a homopolymer and as copolymer with oxyethylene groups for improved thermal stability.
The high degree of crystallinity of POM-H is reflected in the above DSC curve. It is dominated by a distinctive melting effect at 183°C (1st heating, blue, peak temperature) and 181°C (2nd heating, green, also peak temperature) as well as a quite small glass transition step at -77°C (midpoint). The.
Polyoxymethylene (POM) is a high-performance engineering thermoplastic known for its excellent mechanical properties, low friction, and high dimensional stability. It is widely used in precision parts requiring high stiffness, low friction, and excellent wear resistance. POM is available in both.
POM has very good mechanical properties, including Tensile Strength in the range of 60 – 70 MPa, with Xerox-polyester flexural Modulus ranging from 2,400 to 3,300 MPa in different formulations. Hence, it may be attractive as a material for different parts which are subject to excessive mechanical.
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6 FAQs about [Polyoxymethylene storage modulus range]
What is polyoxymethylene (POM)?
Polyoxymethylene (POM), also known as acetal or polyacetal, is a high-performance engineering thermoplastic valued for its strength, stiffness, and low friction. This semi-crystalline polymer offers excellent dimensional stability and wear resistance, making it ideal for precision parts in mechanical and automotive applications.
Which parameter affects the final structure and Young's modulus of low molecular weight POM?
Statistical analysis showed that the parameter that has the greatest impact on the final structure and the Young's modulus of low molecular weight POM is the mold temperature associated with the improved crystallization. Further increases with rising mold temperature can be expected.
What is a polyoxymethylene syringe used for?
couplings, conveyor links. -Medical: Insulin syringe, powder inhaler. Polyoxymethylene (hom.) Polyoxymethylene is a semi-crystalline thermoplastic polymer that is also known as polyacetal. POM is available as a homopolymer and as copolymer with oxyethylene groups for improved thermal stability.
Why is polyoxymethylene a good material for sliding parts?
Hence, it may be attractive as a material for different parts which are subject to excessive mechanical loads. Polyoxymethylene (POM) with low friction properties of approximately 0.2 enables a smooth movement of parts in sliding applications with minimal wear even despite frequent use.
Is pom a good material for Xerox-polyester flexural modulus?
POM has very good mechanical properties, including Tensile Strength in the range of 60 – 70 MPa, with Xerox-polyester flexural Modulus ranging from 2,400 to 3,300 MPa in different formulations. Hence, it may be attractive as a material for different parts which are subject to excessive mechanical loads.
Why is polyoxymethylene a good material?
Polyoxymethylene is characterized by its hard texture and is not flexible in terms of the structure’s stability. This makes it suitable for applications where high integrity and structure are required.