Thermomechanical evaluation of a glass-epoxy composite for astronomical optical devices-Reference-Cited by-同舟云学术

Thermomechanical evaluation of a glass-epoxy composite for astronomical optical devices

Published:2022-09-01 Issue:9 Volume:64 Page:1313-1324
ISSN:0025-5300
Container-title:Materials Testing
language:en
Short-container-title:

Author:

Cruz González Celso Eduardo¹,Torres Arellano Mauricio²,Ledesma Ledesma Saúl³,Alcántara Llanas Perla Itzel⁴

Affiliation:

1. Construcción Mecánica , Centro de Ingenieria y Desarrollo Industrial , Av. Playa Pie de la Cuesta No. 702, Desarrollo Habitacional San Pablo., Cuautitlan Izcalli , Queretaro , 76130 , Mexico

2. Ingeniería Mecánica , Centro de Ingenieria y Desarrollo Industrial , Queretaro , Mexico

3. Sistemas Mecánicos , Centro de Ingenieria y Desarrollo Industrial , Queretaro , Mexico

4. Aeropuerto , Centro de Ingenieria y Desarrollo Industrial , Queretaro , Mexico

Abstract

Abstract Astronomical devices, such as optical benches, carry high precision instrumentation work at low temperatures (−150 °C). To fulfill engineering requirements, glass-epoxy composite trusses are proposed. To evaluate the performance of this solution, thermomechanical characterization is carried out by means of dynamic mechanical analysis (DMA), thermogravimetric analysis (TGA), flammability tests, and tensile test and Scanning Electron Microscopy (SEM) observations. Two family of coupons are tested; first one environmentally aged for 10 years and second one recently fabricated, both at 20, 0 and −20 °C. Ageing influence is more noticeable on thermal behavior as Tg and self-extinguish capacity are lower. Ultimate tensile strength and maximum strain are lower for the aged coupons (16–25%), but there is not a remarkable difference in terms of stiffness. Also, coupons mechanically tested at −20 °C show a slight increment in strength. These results show that ageing of glass-epoxy composites must be considered when high performance devices are conceived to be fabricated with.

Publisher

Walter de Gruyter GmbH

Subject

Mechanical Engineering,Mechanics of Materials,General Materials Science

Link

https://www.degruyter.com/document/doi/10.1515/mt-2022-0005/pdf

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