Awards & Recognition
2004 Winner of the Best Industrial Product Award
Awarded in the Thermoformed Parts Competition at the SPE Thermoforming Conference in Indianapolis, Indiana, for multi-cavity trifold clamshell. The winning design utilizes 180-degree multi-cavity trifold clamshell creating two interlocking layers of perfectly positioned products, and providies a compact, cost effective, time saving packaging solution.
2006 Winner of the Best Industrial Product Award
Awarded in the Thermoformed Parts Competition at the SPE Thermoforming Conference in Nashville, Tennessee, for a multi-layered acoustic shield for a car door trim panel assembly. Thermoformed water and sound isolation shield is a part of vehicle door panel assembly. Attached between inside trim panel and inside metal panel of the door, it functions as a barrier from water, sound and air. Functionality of the part depends highly on achieving a permanent bond between both materials during forming, and proper compression and thickness of a nonwoven fiber. Separate layers of two materials must be preheated to different temperatures and formed simultaneously, while maintaining different profiles of top and bottom layers of the part.
Awarded in the Thermoformed Parts Competition at the SPE Thermoforming Conference in Indianapolis, Indiana, for multi-cavity trifold clamshell. The winning design utilizes 180-degree multi-cavity trifold clamshell creating two interlocking layers of perfectly positioned products, and providies a compact, cost effective, time saving packaging solution.
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Awarded in the Thermoformed Parts Competition at the SPE Thermoforming Conference in Nashville, Tennessee, for a multi-layered acoustic shield for a car door trim panel assembly. Thermoformed water and sound isolation shield is a part of vehicle door panel assembly. Attached between inside trim panel and inside metal panel of the door, it functions as a barrier from water, sound and air. Functionality of the part depends highly on achieving a permanent bond between both materials during forming, and proper compression and thickness of a nonwoven fiber. Separate layers of two materials must be preheated to different temperatures and formed simultaneously, while maintaining different profiles of top and bottom layers of the part.
