Simulation of the relationship between input factors and output indicators of the internal grinding process, considering the mutual vibrations of the tool and the workpiece

IF 0.4 Q4 METALLURGY & METALLURGICAL ENGINEERING
S. Bratan, A. Chasovitina
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引用次数: 0

Abstract

Introduction. In real production conditions, the technological modes recommended in the scientific literature do not reflect the declared qualities, due to the fact that it does not take into account many factors inherent in the process of finishing grinding, for example, its stochastic nature, changes in its dynamic properties, an increase in mutual vibrations of the tool and the workpiece that appear due to changes in the state of the technological system, for example, an increase in vibrations machine tool due to uneven tool wear, etc. All previously developed models have a limited scope of application, it does not take into account the fact that the appearance of vibrations leads to fluctuations in the depth of grinding, with accidental contact of grains with the material being processed, where one group of grains cuts off the material, the other gets into the trace of scratches left by previous grains, etc. This leads to changes in the values of material removal, surface roughness and other parameters of the technological system, which directly affects the accuracy of processing and the quality of the machined surfaces. The purpose of the work is to develop mathematical models that establish the relationship between the processing modes and the current parameters of the contact zone during the fine grinding of pinholes, taking into account the mutual vibrations of the tool and the workpiece. The research methods are mathematical simulation using the basic provisions of the theory of abrasive-diamond processing. Results and discussion. The interrelations between the cutting modes and the current input parameters of the contact zone when grinding pinholes are established, taking into account the mutual vibrations of the tool and the workpiece, which make it possible to determine the parameters of the system at the output to avoid cost losses, including reducing the number of defective products and time costs. Non-stationary mathematical dependences are constructed that allow determining the cutting modes during the implementation of the grinding cycle, taking into account the magnitude of relative vibrations and the initial phase. It is established that instead of a steady process, harmonic oscillations are observed caused by deviations in the shape of the circle, the intensity of tool wear and other factors, all of the above has a significant impact on the quality of the machined surface. The obtained models are universal for various characteristics of the tool, however, for a more adequate description of the process, mathematical dependencies are needed that take into account the wear of the tool on various binders, which is the task of further research.
考虑刀具与工件相互振动的内磨过程输入因素与输出指标之间关系的仿真
介绍在实际生产条件下,科学文献中推荐的技术模式并没有反映所宣称的质量,因为它没有考虑精磨过程中固有的许多因素,例如其随机性、动态特性的变化、,由于技术系统状态的变化而出现的工具和工件的相互振动的增加,例如,由于不均匀的工具磨损而导致的机床振动的增加等。所有先前开发的模型的应用范围都有限,它没有考虑到这样一个事实,即振动的出现会导致研磨深度的波动,晶粒与被加工材料的意外接触,其中一组晶粒切断了材料,另一组晶粒进入了先前晶粒留下的划痕痕迹,等等。这会导致材料去除值的变化,表面粗糙度等工艺系统参数,直接影响加工精度和加工表面质量。这项工作的目的是开发数学模型,在考虑工具和工件的相互振动的情况下,建立针孔精磨过程中接触区的加工模式和当前参数之间的关系。研究方法是利用数学模拟的基本规定对金刚石磨料进行加工。结果和讨论。在考虑到工具和工件的相互振动的情况下,建立了磨削针孔时切削模式和接触区的当前输入参数之间的相互关系,这使得可以在输出端确定系统的参数,以避免成本损失,包括减少缺陷产品的数量和时间成本。构建了非平稳数学依赖关系,允许在研磨周期的实施过程中确定切割模式,同时考虑相对振动的大小和初始阶段。已经确定,观察到的不是稳定的过程,而是由圆的形状偏差、刀具磨损强度和其他因素引起的谐波振荡,所有这些都对加工表面的质量有重大影响。所获得的模型对于工具的各种特性是通用的,然而,为了更充分地描述过程,需要考虑工具在各种粘合剂上的磨损的数学依赖性,这是进一步研究的任务。
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来源期刊
Obrabotka Metallov-Metal Working and Material Science
Obrabotka Metallov-Metal Working and Material Science METALLURGY & METALLURGICAL ENGINEERING-
CiteScore
1.10
自引率
50.00%
发文量
26
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