On the evaluation of spinnability of metallic materials in the powerful spinning process: a review

TL;DR

This review discusses the methods and factors affecting the evaluation of metal spinnability in powerful spinning processes, crucial for quality control and process optimization in industrial manufacturing.

Contribution

It provides a comprehensive analysis of existing test and theoretical methods for assessing metal spinnability at room temperature, highlighting key influencing factors.

Findings

Various test methods for spinnability evaluation are summarized.

Theoretical approaches to predict spinnability are discussed.

Factors affecting spinnability include material properties and process parameters.

Abstract

Currently, the rapidly developing powerful spinning processes of metals are widely used in many industrial sectors including those requiring high precision processing of metal materials, and the types and production of spun part are increasing. Evaluating the spinnability (flow formability) of material is very important for expanding the application of flow-forming process for producing a lot of products. The spinnability of metal is an important basic data that predicts defects that may appear in the processing of products in advance, makes it possible to create rational processes, and guarantees product quality. In this paper, we comprehensively analyze the data studied so far on the spinnability evaluation during powerful spinning conducted at room temperature, it was described with respect to the test methods and the theoretical methods for evaluating spinnability of metallic materials, and the effect of various factors on the spinnability.