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Additive Manufacturing Photopolymer Materials from BASF to Advance Paxis' 3D Printing Technology

| Editor: Alexander Stark

BASF 3D Printing Solutions is to provide innovative additive manufacturing materials to Paxis LLC for their new WAV technology. This is currently in development and is designed to meet the needs of additive manufacturing users.

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BASF’s photopolymer materials “Ultracur3D” for advanced manufacturing applications qualify for early development access in new WAV technology.
BASF’s photopolymer materials “Ultracur3D” for advanced manufacturing applications qualify for early development access in new WAV technology.
(Source: BASF)

Ludwigshafen/Germany — With their new WAV technology, Paxis extends the application possibilities of additive manufacturing to a broader scope than current technologies allow. This process was created with the end-user in mind in an effort to solve trapped volume issues of current liquid resin-based technologies.

BASF’s Ultracur 3D ST 45 reactive urethane photopolymer for tough applications has been designed to fulfill the requirements of functional applications for high accuracy and mechanical strength, where existing 3D printing materials often reach their limitations. The materia can be used to produce high performance functional parts by using a wide variety of equipment, such as stereolithography (SLA), digital light processing (DLP), or Liquid Crystal Display (LCD).

Paxis’s primary focus are commercial manufacturing applications in the aerospace, automotive, dental and medical sectors, as well as identifying potential vertical markets within advanced manufacturing that have so far been ignored due to the limitations of existing technologies.

Commercial manufacturers will benefit from a scalability of size and speed previously unknown in current additive-manufacturing resin-based systems. Hand-selected companies will be invited during the early stages of hardware and product development to work closely with industrial producers on solving their application requirements. Adaptability to specific commercial manufacturer needs coupled with a system capable of far greater scalability will further accelerate additive manufacturing beyond mass customization, with the goal of opening up new untapped vertical markets.

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