Material removal monitoring in precision cylindrical plunge grinding using acoustic emission signal

Jiang, Chen; Li, Haolin; Yunfei, Mai; Guo, Debao

doi:10.1177/0954406213489652

Cited by 13 publications

(10 citation statements)

References 18 publications

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“…According to the accuracy theory of grinding machines and the accuracy theory of three-coordinate measuring instruments, as well as Equations (11) and (12), a "Double Accuracy As shown in Figure 3, coordinate system O 50 ; O 60 ; O 70 ; O 80 is respectively an integral coordinate system, a worktable translation coordinate system, a measuring probe rotation coordinate system and a measuring beam translation coordinate system. According to the theoretical solution method of grinding machine precision, it is also concluded that:…”

Section: Double Accuracy Theoretical Analysismentioning

confidence: 99%

“…At the same time, the exploration of machine tool accuracy has also introduced acoustic emission monitoring technology, and it has become a hot topic in the field of advanced processing. Acoustic emission technology has been used for on-line monitoring of grinding processes such as end grinding [11], cylindrical transverse grinding [12], centerless grinding [13], etc. However, most of the authors have neglected the most important step in ensuring the precision of parts while studying the frontier of grinding precision technology.…”

Section: Introductionmentioning

confidence: 99%

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A “Double Accuracy Theory” and Experimental Research on Precision Grinding

Chen

Zha

et al. 2020

Applied Sciences

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In the global machining industry, ultra-precision/ultra-high-speed machining has become a challenge, and its requirements are getting higher and higher. The challenge of precision grinding lies in the difficulty in ensuring the various dimensions and geometric accuracy of the final machined parts. This paper mainly uses the theory of a multi-body system to propose a “double accuracy” theory of manufacturing and measurement. Firstly, the grinding theory with an accuracy of 0.1 μm and the precision three-coordinate measuring machine theory with an accuracy of 0.3 μm are deduced. Secondly, the two theories are analyzed. Aiming to better explain the practicability of the “double accuracy” theory, a batch of motorized spindle parts is processed by a grinding machine. Then the precision three-coordinate measuring machine is used to measure the shape and position tolerances such as the roundness, the squareness, the flatness, and the coaxiality. The results show that the reached roundness of part A and B is 5 μm and 0.5 μm, the squareness is 3 μm and 4.5 μm, and the coaxiality tolerance is 1.2 μm, respectively.

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Section: Double Accuracy Theoretical Analysismentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A “Double Accuracy Theory” and Experimental Research on Precision Grinding

Chen

Zha

et al. 2020

Applied Sciences

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“…1. For internal plunge grinding, the grinding power P associated with the tangential grinding force t F can be written as: [18] s t p v F k P = (11) where p k is the coefficient of power, which depends on the grinding conditions, and s v which represents the grinding wheel speed. The normal grinding force n F is proportional to the tangential grinding force t F :…”

Section: Grinding Power Signal Model (Gpsm)mentioning

confidence: 99%

“…However, a means of directly measuring the grinding force has yet to be developed due to the difficulty of installing the measuring instrument at the point of internal plunge grinding [10] . Recently, Chen Jiang et al [11] reported an acoustic emission (AE) model based on grinding force models for the prediction of material removal from a workpiece. Their results indicated that acoustic emission measurements can be used to predict material removal during precision grinding.…”

Section: Introductionmentioning

confidence: 99%

“…Hence, it is impossible to mount the AE sensor at the same point for all machine tools to obtain the same sensitivity. Also, most studies based on monitoring material removal only focused on the infeed period and dwell period [8,9,11,12] . Hence, for an actual parts production line, a general model for the multi-infeed internal plunge grinding should be established to satisfy the specified requirements.…”

Section: Introductionmentioning

confidence: 99%

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In-process monitoring and analysis of bearing outer race way grinding based on the power signal

Chi

Chen

2016

Proceedings of the Institution of Mechanical Engineers, Part B:

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In production engineering, monitoring of the grinding process is critical for acquiring information on material removal, wheel performance, and workpiece quality. Here, a general model of the power signal and material removal rate is proposed to monitor the internal plunge grinding of a bearing outer race way product. Three continuous grinding cycles after dressing were used to analyse the roughing, semi-finishing, finishing and spark-out process under the same parameters.Based on the actual grinding process, a practical analysis method is applied to improve the general model to predict more accurately the power curve. Finally, estimations of grinding wheel performance and grind quality using the grinding power signal model (GPSM) coefficients are also presented. The experimental results showed that the improved power signal model is capable of solving the industrial problem of multi-stage in-feed grinding cycles and improving grind quality.

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