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作 者:孙健康 付磊 Jiankang Sun;Lei Fu(Shandong Zhongjin Lingnan Copper Industry Co.,Ltd.,Dongying,Shandong 257000)
机构地区:[1]山东中金岭南铜业有限责任公司,山东东营257000
出 处:《新疆钢铁》2025年第1期33-35,共3页Xinjiang Iron and Steel
摘 要:冶金生产中每一个环节的温度变化都与金属的物理性质和化学成分密切相关,温度的波动使得材料缺陷问题的反复出现,从而导致产品无法达到预期的质量标准。结合金属条件以及反应特点的差异性,精确调控温度的核心变化度,并从多角度实现工艺过程的稳定性至关重要。本文从提升温控系统的响应速度和调节精度作为切入点,为了从根本上确保产品质量的稳定性和一致性,重点分析温控技术与智能化、自动化系统的联系性,在此基础上探索温控技术在冶金生产中具有的关键效应,从而全面改进产品质量,优化冶金企业的经济效益。The temperature changes at every stage of metallurgical production are closely related to the physical properties and chemical composition of the metal.Temperature fluctuations lead to the repeated occurrence of material defects,resulting in products that cannot meet expected quality standards.It is crucial to accurately control the core temperature variation and achieve process stability from multiple perspectives,taking into account the differences in metal conditions and reaction characteristics.This article takes improving the response speed and adjustment accuracy of the temperature control system as the starting point.In order to fundamentally ensure the stability and consistency of product quality,the focus is on analyzing the connection between temperature control technology and intelligent and automated systems.Based on this,the key effects of temperature control technology in metallurgical production are explored to comprehensively improve product quality and optimize the economic benefits of metallurgical enterprises.
分 类 号:TF06[冶金工程—冶金物理化学]
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