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framework has been developed to enable engineers to design and plan the effective dimensional verification of large volume, complex structures in order to reduce failure rates and end-product costs, improve process integrity and efficiency, optimise metrology processes, decrease tooling redundancy
23:) is a set of engineering guidelines to aid designers in ensuring right first time manufacturing and assembly of large-scale components. The guidelines were developed as a tool to inform and direct designers during early stage design phases to trade off estimated measurement uncertainty against
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Increased competition in the aerospace market has placed additional demands on aerospace manufacturers to reduce costs, increase product flexibility and improve manufacturing efficiency. There is a knowledge gap within the sphere of digital to physical dimensional verification and on how to
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framework is an engineering principle to be used within low rate and high value and complexity manufacturing industries to aid in achieving high productivity in assembly via the effective dimensional verification of large volume structures, during final assembly. The
65:’ toolbox, the resultant process achieved improved tolerance analysis and synthesis, optimized large volume metrology and assembly processes and more cost-effective tool and jig design.
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methods were published in 2016, together with their testing using industrial case studies of representative complexity. The industrial tests published on
111:"Design for Verification The 9th International Conference on Digital Enterprise Technology – Intelligent Manufacturing in the Knowledge Economy Era"
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successfully achieve dimensional specifications within real-world assembly factories that are subject to varying environmental conditions.
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and increase product quality and conformance to specification. The theoretical elements of the
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Francis, Andrew; Maropoulos, Paul; Mullineux, Glen; Keogh, Patrick (2016).
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Francis, Andrew; Maropoulos, Paul; Mullineux, Glen; Keogh, Patrick (2016).
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