Emabond Welding Solutions

 

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       May 7th - 11th


     


Tech-Info & Downloads

1) In-Sink-Erator Tank,
Appliance Manufacturer, August, 2000
The new design gave us everything we wanted and some, but there were problems. Specially, the new design required two thermoplastic components to be sealed along a 40-in length.

2) Advances in the Emabond Induction Welding Process for High Performance Assembly
of Demanding Thermoplastics
,
Assembly Tech Expo, 2003
This presentation outlines the design and manufacturing considerations implemented to achieve reliable, robust performance and details the advances and use of this process in several representative high-performance assembly applications.

3) Recent Advances and Challenges in Induction Welding of Reinforced Nylon in Automotive Applications,
SAE Conference, March, 2004
In the current paper, we will try to enhance the understanding of the automotive engineering community regarding the usefulness, unique capability, and applicability of the recently improved Emabond welding technology in the design for heavy-duty and load-bearing automotive plastic parts where requirements for safety and durability are the first priority and fiber-glass reinforced Nylon based plastics and widely used.

4) Induction Welding Takes New Aim for Reinforced Thermoplastics in High Strength and Load Bearing Applications,
ANTEC SPE Conference, May, 2004
In this study, 33 wt. % fiber-glass reinforced Nylon 6 was used in a chain-optimization study to conduct a critical comparison of two alternatives for thermoplastic welding. Results demonstrates interactions between material composition, joint design, and welding process conditions.

5) Implant Induction Welding of Nylon 6/6, ANTEC SPE Conference, May, 2005
In this study, three factor two level full factorial design of experiments were performed to evaluate two different types of Nylon 6/6, denoted as A and B, in a lap shear joint geometry.

6) Performance of Susceptor Material in High Frequency Magnetic Fields,
2006 ANTEC SPE Conference, May, 2006
Magnetic implant welding uses susceptors that couples, due to ferromagnetic hysterisis, with high frequency electromagnetic radiation to generate controllable heat in the plastic. The relationship of coupling distance, power level, and frequency to the heating response of susceptors was studies.

 


Emabond SolutionsTM - Global Headquarters & Innovation Center • 49 Walnut St. • Norwood, NJ 07648

Phone (main) 201-767-7400
• Customer Service 201-767-7400 x5568 • Fax 201-767-3608

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