2020
DOI: 10.3390/ma13245683
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Investigating the Linear Thermal Expansion of Additively Manufactured Multi-Material Joining between Invar and Steel

Abstract: This work investigated the linear thermal expansion properties of a multi-material specimen fabricated with Invar M93 and A36 steel. A sequence of tests was performed to investigate the viability of additively manufactured Invar M93 for lowering the coefficient of thermal expansion (CTE) in multi-material part tooling. Invar beads were additively manufactured on a steel base plate using a fiber laser system, and samples were taken from the steel, Invar, and the interface between the two materials. The CTE of t… Show more

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Cited by 17 publications
(3 citation statements)
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“…They mentioned that a good microhardness value and a great metallurgical bond are obtained at the interface. The thermal expansion properties of bi-metallic Invar M93 beads on an A36 steel base fabricated using laser-based wire AM were investigated by Arbogast et al [114]. They deduced that the multi-material AM of Invar considerably decreased the coefficient of thermal expansion of the entire system.…”
Section: Bi-metallic Componentsmentioning
confidence: 99%
See 1 more Smart Citation
“…They mentioned that a good microhardness value and a great metallurgical bond are obtained at the interface. The thermal expansion properties of bi-metallic Invar M93 beads on an A36 steel base fabricated using laser-based wire AM were investigated by Arbogast et al [114]. They deduced that the multi-material AM of Invar considerably decreased the coefficient of thermal expansion of the entire system.…”
Section: Bi-metallic Componentsmentioning
confidence: 99%
“…Implementing MMAM in large-scale production enables the introduction of assembly-free construction [21]. The flexibility of MMAM with regard to the scale of production provides several benefits in comparison to single-material AM, including but not limited to functional integration across distinct and/or different materials [133], a reduction in the part count [21,133], transitional grading across materials [114], the ability to adjust properties across the volume of the product [134], and 4D printing. Although only limited research results and examples of practical implementation are available for large-scale MMAM, the initial prototype productions are very promising and pave the way for further developments and the introduction of new concepts in the realm of large-scale MMAM.…”
Section: Scale Of Mmammentioning
confidence: 99%
“…When the pools are excessively melted, it would require overlapping distances to be reduced to maintain equal depth on the weak substrate. The number of passes needed to span for a coverage is also reduced when overlapping percentages are reduced [16][17][18].…”
Section: Microhardnessmentioning
confidence: 99%