Microsphere-Based Composite Wetsuit For Incompressible Passive Thermal Insulation

Abstract

This research aims to produce an improved wetsuit designed to insulate divers at low temperatures and increased depths. Military divers currently use 7 mm thick neoprene wetsuits, which lose thermal performance at high depths due to compression of the material. This poses a serious problem to the safety of Navy divers and mission success. An improved wetsuit with better thermal insulation at high depths would improve mission duration, capabilities, and diver safety. Our wetsuit has a 3 mm neoprene base, with composite casts covering the chest, abdomen, back, and thighs, similar to plated armor. The composite material consists of 3M K1 glass microspheres embedded into a Sylgard 184 silicone elastomer. This provides better thermal insulation than the neoprene material and does not contract at increasing depths in the water. It also provides better mobility along the joints. The proof of concept of this design has been explored in previous projects, and the purpose of this research is to complete the suit with forearm, bicep, and shin panels and to gather extensive data comparing the composite wetsuit to 7 mm wetsuits. We use automated data loggers, external and internal to the suits, to collect temperature and pressure data in field tests. Further testing is required to find thermal improvement. Ideally, the final composite wetsuit will increase thermal insulation for the diver, while the thin material around the joints will provide increased mobility for mission success.

Document Details

Document Type

Technical Report

Publication Date

Jun 01, 2021

Accession Number

AD1151040

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