The cold rolling load distribution of the nuclear power zirconium alloy based on the self-adaptive particle swarm optimization algorithm

Cao Yuan,Wang Tao,Cao Jian-Guo,Wang Lei-Lei,Li Fang,Luo Qian-Qian,Zhang Peng-Fei

doi:10.1007/s00170-021-08272-z

Abstract

Aiming at the problem of load distribution during multi-pass cold rolling of nuclear zirconium alloy strip, the load distribution model with good plate shape is established by the self-adaptive particle swarm optimization (SAPSO) algorithm, considering the main constraint conditions including rolling force, reduction, and torque in cold rolling process. Based on the penalty function method transforming the constraint problem into the unconstrained problem, the particle swarm optimization algorithm (PSO) combined with self-adaptive inertia weight factor optimized the load distribution model is developed to improve the local search ability of the particle swarm optimization algorithm. Compared with the original nuclear zirconium alloy cold rolling schedule, the simulation results of load distribution based on the SAPSO algorithm can keep good plate shape in multi-pass cold rolling process with the high prediction accuracy. The industrial experiments demonstrate that the proportional crown difference value is consistent, and the plate shape flatness is good.

Highlights

The zirconium alloy is an important material in the field of the nuclear power zirconium alloy plate and strip, the plate shape is one of the key quality indicators
A reasonable rolling rule is critical for the nuclear zirconium alloy cold rolling process, which can take full superiority of rolling mill equipment potential, reducing the energy consumption and ensure accuracy and quality of plate products
Shape control and plane defect prevention need to meet the requirements of the zirconium alloy plate rolling technology, this paper is based on the actual production data, which combines the rolling theory with the intelligent optimization algorithm to study the load distribution optimization in nuclear power zirconium alloy rolling [4,5]

Summary

Introduction

The zirconium alloy is an important material in the field of the nuclear power zirconium alloy plate and strip, the plate shape is one of the key quality indicators. Shape control and plane defect prevention need to meet the requirements of the zirconium alloy plate rolling technology, this paper is based on the actual production data, which combines the rolling theory with the intelligent optimization algorithm to study the load distribution optimization in nuclear power zirconium alloy rolling [4,5]. It is important to study the nuclear power zirconium alloy multi-pass rolling schedule, combined with the artificial intelligence optimization algorithm [10,11]. This paper uses the self-adaptive particle swarm optimization algorithm (SAPSO) to optimize the nuclear power zirconium alloy cold rolling schedule with the goal of good plate shape [21,22]. The actual industrial test is further investigated to verify the effectiveness of the SAPSO rolling schedule

Objective function and related mathematical models

Objective function

Basic particle swarm optimization

The penalty function method based on SAPSO algorithm

Findings

Conclusion