PART SUMMARY:

 

One of the high-performance thermoplastics that AIP machines is Polyetherimide (PEI), known by its tradename ULTEM.  Due to its weight-saving properties, high chemical and hydrolysis resistance and tensile strength, ULTEM is popular across several industries: Automotive, aerospace and defense, electrical and electronic market, medical and life sciences and industrial applications and appliances.  Read on to learn about what this incredible polymer can do!

 

MATERIAL PROPERTIES:

 

Polyetherimide (PEI) is an amorphous thermoplastic.  Polyetherimide was developed to provide sufficient flexibility and good melt processability while maintaining excellent mechanical and thermal properties.

 

Key properties of ULTEM PEI include:

  • Handling at temperatures up to 340°F (171°C)
  • Heat Resistance
  • Flame Resistance
  • Chemical Resistance
  • High Rigidity
  • Highest Dielectric Strength
  • Hydrolysis Resistance
  • Low Thermal Conductivity

 

ULTEM Applications

As mentioned previously, ULTEM is a highly sought-after thermoplastic for weight-saving capabilities in aerospace components to reusable autoclave sterilizations in medical applications.  However, it’s most commonly used in high voltage electrical insulation applications.

 

Common uses include:

  • Analytical Instrumentation
  • Dielectric Properties Required
  • Electrical Insulators
  • High Strength Situations
  • Reusable Medical Devices
  • Semiconductor Process Components
  • Structural Components
  • Underwater Connector Bodies

 

So, what can this polymer do?  Let’s take a closer look at how ULTEM (PEI) is applied in the Aerospace & Defense, Medical & Life Sciences and Specialized Industrial markets:

 

WHAT CAN ULTEM DO FOR AEROSPACE & DEFENSE?

 

In the Aerospace & Defense Industry, ULTEM is often applied to aircraft components for weight reduction in place of metal parts.  Additionally, since it has a high thermal resistance rating, polymer components have the benefit of evading radar detection in military aircraft.

 

AIP machines ULTEM 1000 & ULTEM 2300

 

ULTEM 2300 is a 30 percent glass filled version of virgin ULTEM 1000.  The addition of glass increases ULTEM 1000’s dimensional stability by almost three times.

 

For over three decades, AIP has provided flight control, fuel system, interior, engine and aerodynamic-related ULTEM components for various aircraft OEM and MRO providers worldwide.  As this industry continues to expand, evolve and innovate, the demand for high-performance materials like ULTEM contribute significantly to streamlined operations.

 

WHAT CAN ULTEM DO FOR MEDICAL & LIFE SCIENCES?

 

In the Medical Industry, biocompatibility and sterilization are paramount to medical instruments and implants. ULTEM is often a popular choice in this sector due to its resistance to chemicals and lipids.  Polyetherimide also withstands dry heat sterilization at 356°F (180°C), ethylene oxide gas, gamma radiation and steam autoclave.

 

Some popular medical applications include disposable and re-usable medical devices and medical monitor probe housings.  These could be surgical instrument handles and enclosures or non-implant prostheses.  It gets extensive use in membrane applications due to its separation, permeance and biocompatible properties.

 

WHAT CAN ULTEM DO FOR SPECIALIZED INDUSTRIAL Sectors?

 

At AIP, we precision machine ULTEM for many specialized industrial applications as well: automotive, electrical and metal replacement, to name a few.  Despite the diversity of these industrial applications, we have the inventory and machining capabilities to provide solutions for any project specifications.

 

PEI is most often used in electrical and lighting systems in the automotive market for its high heat resistance, mechanical integrity and strength.  Principal automotive applications include: transmission parts, throttle bodies, ignition components, thermostat housings, bezels, reflectors, lamp sockets and electromechanical systems.

 

The electrical and electronic markets demand high heat resistant materials.  ULTEM is an excellent choice for applications such as electrical circuit boards, switches, connectors, electronic chips and capacitors.

 

As discussed previously, thermoplastics like ULTEM often replace metal parts in industrial applications.  For this reason, it’s often used in housewares, especially fluid handling systems.  Some of these applications are: HVAC equipment, microwave cookware, steam and curling irons, dual-ovenable trays for food packaging that meets FDA food packaging requirements.

 

What can AIP Precision Machining do for you?

 

From concept to completion, our team of engineers will work with you to realize the final product.  With some of the fastest lead times in the industry, our unrivaled technical experts we can tackle your polymer challenges.

 

What Can This Polymer Do? Supportive Information

 

Medical Sector Biomaterials Guide

Energy Sector Materials Guide

Aerospace Sector Materials Guide

Amorphous Materials

Aerospace Case Study: Weight-saving Polymers

 

 

CUSTOMIZED FOR YOUR APPLICATION

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PART SUMMARY:

 

PEEK (PolyEtherEtherKetone) is a lightweight highly chemical resistant thermoplastic popular in the Aerospace & Defense and Medical & Life Sciences Industries.  From implants to custom medical devices or machined lightweight aircraft components, PEEK is ideal for a variety of specialized applications.

 

MATERIAL PROPERTIES:

 

PEEK is considered a semi-crystalline, high-performance thermoplastic. This gives it enough elasticity to be precision machined to various custom designs, with strong mechanical properties that provide resistance to fatigue and stress-cracking, as well as a good structure for bearing, wear and structural applications.

 

Key properties of PEEK include:

  • Handling at temperatures up to 480°F (250°C)
  • Abrasion Resistance
  • Chemical Resistance
  • High Ductility
  • High Elongation
  • Hydrolysis Resistance
  • Low Outgassing

 

What can this polymer do?

 

Due to its elasticity and resistance to chemicals, abrasion and hydrolysis, PEEK is a highly sought-after thermoplastic for both industrial-grade and medical-grade applications.

 

Common uses include:

  • Aerospace Weight Reduction Components
  • Dental Implants
  • Food and Beverage Automated Manufacturing Equipment
  • Food and Beverage Filling
  • Medical Implants
  • Medical Instruments
  • Metal Replacement
  • Processing Equipment
  • Semiconductor Manufacturing Equipment
  • Vacuum Chamber Applications

 

So, what can this polymer do?  Let’s take a closer look at how it is applied in the Aerospace & Defense and Medical & Life Sciences industries:

 

AEROSPACE & DEFENSE

 

In 1978, ICI invented PEEK, a member Of the PAEK (polyaryletherketone) family of thermoplastic polymers.  It quickly gained recognition in the aerospace and defense industry for its weight-saving capabilities over metal alloys.  For example, Airbus used PEEK for a primary structural component in the door of the A350 XWB to improve quality and reduce weight and costs by 40 percent.  Over the next 15 years, industry professionals forecast that 41,000 new and replacement planes will be required.  Officials and engineers in the aerospace industry are looking for alternative high-performance thermoplastics like PEEK to meet this material demand.

 

Read more on PEEK’s impact in the aerospace and defense industry in our downloadable booklet below

 

As demand for stream-lined, innovative materials grows, we continue to serve and precision machine complex polymers for the aerospace and defense industries. For over three decades, we have provided flight control, fuel system, interior, engine and aerodynamic-related PEEK components for various aircraft OEM and MRO providers worldwide.

 

MEDICAL & LIFE SCIENCES

 

PEEK gained traction in the medical industry 20 years after the aerospace industry adopted it. In the late 1990s, Invibio Biomaterial Solutions commercialized a bio-compatible grade of PEEK (PEEK-OPTIMA). Ever since then, demand for medical grade PEEK devices has skyrocketed. From surgical instruments to spinal fusion implants, PEEK has a wide range of applications that only continues to expand in the medical industry.

 

Peek Neurosurgical Case Study

 

One such example of PEEK’s versatility is in neurosurgery for stroke and traumatic brain injuries.  Dr. Rohit Khanna partnered with AIP Precision Machining engineers to create a device that would expand without another operation, yet hold the “bone flap” and the rest of the skull together.

 

Problem

Dr. Rohit Khanna wanted to develop a device that would relieve swelling in the skull for patients undergoing brain surgery, which can lead to complications or even death.

 

Solution

The polymer of choice?  PEEK.  AIP’s engineers machined a medical component that was flexible, strong and sensitive enough to fulfill the necessary requirements for this critical medical part.  PEEK was also the best choice for this medical application because it was the most ductile and biocompatible.

 

medical tool built with peek polymer
 

Resolution

Currently, the FDA is processing the PEEK surgical piece for clearance to conduct clinical trials.  If it is approved to move forward, it can make leaps and bounds in reducing the need for multiple brain surgeries, saving more lives.

 

Get the full case study on PEEK

 

What can this polymer do?

From concept to completion, our team of engineers will work with you to realize the final product.  With some of the fastest lead times in the industry, our unrivaled technical experts we can tackle your polymer challenges.

 

What Can This Polymer Do? Supportive Information

PEEK VARIANTS

 

Download our “What Can This Polymer Do?” booklet.

We’ve put together our premier PEEK applications in a condensed booklet you can take with you.

Learn here.

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Where Does This Part Go?

PPS Wheel Bushing | AIP Precision Machining

 

If you’ve been to a popular Florida amusement park, then it’s possible you’ve encountered the latest part starring in our “Where Does This Part Go?” series.

Find out why this part really makes a “splash” in the section below…

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