Abstract

Negative thermal expansion (NTE) lattices are widely used in aerospace engineering where the structures experience large temperature variation. However, the available range of NTE of the current lattices is quite narrow, which severely limits their engineering application. In this paper, we report an inverted trapezoid lattice (ITL) with large NTE. The NTE of the ITL is 2.6 times that of a typical triangular lattice with the same height and hypotenuse angle. Theoretically, with a pin-jointed assumption, the ITL can improve the NTE by order of magnitude if the length ratio of the composite rod is changed. In the presented ITL, a composite rod is utilized as the base of the ITL. The composite rod has large inner NTE. The inverted trapezoid structure converts the inner NTE to the vertical direction contraction and obtains an extra NTE. Finite element simulations and experimental verification by interferometric measurement were conducted to verify the large thermal expansion of the ITL.

Highlights

  • Negative thermal expansion (NTE) structures have been successfully used in aerospace engineering and precision devices where the structures experience large temperature fluctuation [1,2]

  • We reported an inverted trapezoid lattice (ITL) based on the composite rod

  • The inverted trapezoid structure realized that the inner NTE of the composite rod converted to an extra vertical NTE of the ITL

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Summary

Introduction

Negative thermal expansion (NTE) structures have been successfully used in aerospace engineering and precision devices where the structures experience large temperature fluctuation [1,2]. It uses a large thermal expansion of one material to generate an unbounded NTE When the height of the triangular lattice becomes small, On the other hand, the large CTE ratio of the two constituents will make large thermal stress in the the number of lattices for the whole structure will increase.

Structure of The Composite Rod
Thermal Expansion of the ‘Virtual Rod’
Structure of the the ITL
Schematic
NTE of the the ITL
Effects
The CTE Ratio of The Two Constituents
Height
Conclusions
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