Forthcoming articles


International Journal of Abrasive Technology


These articles have been peer-reviewed and accepted for publication in IJAT, but are pending final changes, are not yet published and may not appear here in their final order of publication until they are assigned to issues. Therefore, the content conforms to our standards but the presentation (e.g. typesetting and proof-reading) is not necessarily up to the Inderscience standard. Additionally, titles, authors, abstracts and keywords may change before publication. Articles will not be published until the final proofs are validated by their authors.


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International Journal of Abrasive Technology (8 papers in press)


Regular Issues


  • Decision Support System for Principal Factors of Grinding Wheel Using Data-Mining Methodology   Order a copy of this article
    by Hiroyuki Kodama, Itaru Uotani, Kazuhito Ohashi 
    Abstract: The recommended grinding conditions are described in five factors (abrasive grain, grain size, grade, structure, and bonding material) of the three main elements (abrasive grain, bonding material, and pore) in the grinding wheel catalog data-set. As systematic arrangement is not made, grinding conditions (cutting speed, table feed, depth of cut) have to be decided on the basis of an experienced engineers information or experience. Moreover, although the setting of the five factors of the three elements of a grinding wheel is important parameter that affects the surface quality and grinding efficiency, it is difficult to determine the optimal combination of workpiece materials and grinding conditions. In this research, a support system for effectively deciding the desired grinding wheel was built by using a decision tree technique, which is one of the data-mining techniques. This system extracts a significant tendency of grinding wheel conditions from catalog data. As a result, a visualization process was proposed in correspondence to the action of the grinding wheel elements and their factors to the material characteristics of the workpiece material. In this report, we produced patterns to support selection of grinding wheels by visualizing the surface grinding wheel selection decision tendency from more amount of data, based on data mixed with JIS standard and maker's catalog data.
    Keywords: Data-mining; Decision tree; Grinding wheel; surface grinding.

  • In-process grinding wheel wear evaluation using digital image processing   Order a copy of this article
    by Bahman Azarhoushang, Sebastian Ludwig 
    Abstract: The microtopography of the grinding tool surface is essential for the result of the grinding process. Micro wear (the flattening of the abrasive grits) and loading (the adhesion of chips between or on the grits), lead to an increase in process forces and temperatures. Subsequently, poor surface qualities, dimensional and profile errors and thermal damage to the workpiece, such as grinding burn, could be induced by the grinding process. Hence, cleaning (dressing) of the grinding wheel is necessary to restore the grinding ability of the tool. Industrial processes usually have short dressing intervals to avoid scrap parts. However, short dressing intervals cause a high loss of the valuable abrasive layer of both grinding and dressing tools. A novel process-oriented measuring method is developed in this study to evaluate quickly and efficiently the surface topography of grinding tools. Images of the tool surface, after being recorded via a camera system, are evaluated by an innovative image processing software for characterizing grit flattening and loading. This article describes the developed technique and the results of the application during grinding processes. The results show a direct proportionality between the output values of the proposed method and the measured grinding forces. Hence, the developed measurement method can be used for the evaluation of the grinding ability and for an assessment of the tool life.
    Keywords: grinding; dressing; wheel wear; tool loading; tool life; image processing.

  • High-speed high-efficient grinding of CMCs with structured grinding wheels   Order a copy of this article
    by Bahman Azarhoushang, Mohammadali Kadivar, Robert Bösinger, Sergey Shamray, Ali Zahedi, Amir Daneshi 
    Abstract: The implantation of ceramic matrix composites (CMCs) is limited due to their high machining costs. To overcome this problem, modified grinding wheels, one macro-structured by segmenting and another laser-structured were used. The grinding tests were carried out at different material removal rates and cutting speeds. The grinding forces, surface roughness, and induced residual stress were compared. The results showed that the wheel structuring resulted in a better performance of the grinding wheel. The grinding forces were respectively 30% and 20% lower in the case of segmented wheel and laser-structured wheel in comparison with the conventional grinding. In addition, the tensile residual stress was reduced as a negative output of the grinding process via structuring. A high-speed high-efficient grinding of CMCs without presence of surface damage was achieved by optimising the process parameters. The material removal rate could be elevated without changing the grinding forces with application of the structured wheel.
    Keywords: high speed grinding; high efficiency grinding; ceramic matrix composites; CMCs; segmented wheel; laser-structure.
    DOI: 10.1504/IJAT.2019.10019120
  • An experimental investigation on precision machining mechanism of carbon fibre reinforced polymer   Order a copy of this article
    by Xiaojiang Cai, Ruhao Zhou, Lifeng Shen, Hongliang Tang, Qinglong An 
    Abstract: With the rapid development of carbon fibre reinforced polymers (CFRPs) as main aerospace structural materials, it is necessary to manufacture CFRP structural components for high dimensional accuracy by means of precision machining. In this paper, orthogonal cutting was used to investigate machining process and surface quality of CFRP materials for precision machining. An intensive discussion was given about fibre orientation and cutting parameter range when machining CFRP for high accuracy application and optimised cutting method, including cutting speed, cutting depth, edge radius, fibre orientation, was obtained to reduce cutting force and surface roughness and get smooth surface topography. The cutting speed over 200 m/min and small cutting depth slightly large than edge radius were advisable, the fibre direction 0~45° and 90° were found suitable for precision machining. This paper provides theoretical and experimental supports for application of precision machining of CFRP materials.
    Keywords: carbon fibre reinforced polymers; CFRPs; precision machining; cutting force; cutting speed; cutting depth; surface roughness; surface topography.
    DOI: 10.1504/IJAT.2019.10019122
  • Development of nanofibre abrasive buffing pad produced with modified melt blowing method   Order a copy of this article
    by Wei Wu, Eiichi Aoyama, Toshiki Hirogaki, Kenichi Urabe, Hiroyoshi Sota 
    Abstract: This study focuses on one of the applications of nanofibre: abrasive buffing. We proposed the oil adsorption physical model of abrasive buffing and compared it with experimental results to develop a nanofibre buffing pad. For realising the free-form nano surface, such as moulding die surface, we conducted a base experiment with different diameter fibres and different size grains and investigated its base polishing characteristics compared with commercial felt buff. From the experimental results, we considered the buffing mechanism of fibre and grain contact the workpiece surface to polish. As a result, the effect of combination of mesh size and grain size on polished surface roughness of the workpiece was demonstrated, and controlling the polished surface roughness using this low-cost new abrasive material in abrasive machining was realised.
    Keywords: melt-blowing method; nanofibre; oil adsorption; non-woven polypropylene nanofibre; buffing; buffing pad.
    DOI: 10.1504/IJAT.2019.10019140
  • Research on surface integrity in graphene nanofluid MQL milling of TC21 alloy   Order a copy of this article
    by Ming Li, Tianbiao Yu, Hongyu Li, Lin Yang, Jiashun Shi, Wanshan Wang 
    Abstract: As a new type of damage-tolerance titanium alloy, TC21 alloy is widely used in aerospace. However, TC21 is a difficult-to-machine material owing to its low thermal conductivity, high chemical activity and low elasticity modulus. In this work, minimum quantity lubrication (MQL) with graphene nanofluid was adopted in TC21 milling. In order to evaluate the effects of graphene nanoparticle on the surface integrity, a series of milling experiments were performed under the dry, gas, pure MQL and graphene nanofluid MQL condition respectively. Results showed that the graphene additive was effective for improving the surface integrity. Overall, the results could be explained that graphene additive could enhance the cooling and lubrication performances of the oil film formed in cutting zone. The findings of this work are expected to give a feasibility and some experimental basis for the application of the graphene additive in MQL milling.
    Keywords: graphene nanofluid; MQL milling; surface integrity; TC21.
    DOI: 10.1504/IJAT.2019.10019131
  • Study on the material removal mechanism of glass in single diamond grain grinding with ultrasonic vibration assisted   Order a copy of this article
    by Jianyun Shen, Bin Dai, Xian Wu, Yuan Li, Zhongwei Hu 
    Abstract: The ultrasonic vibration assisted grinding is widely used in machining of hard and brittle material. This paper presents a study on the material removal mechanism in ultrasonic vibration assisted grinding of glass. The single diamond grain grinding experiments were performed with and without ultrasonic vibration assisted. The grinding force and acoustic emission signal were measured and analysed, and the ground groove morphology was observed and analysed in detail. The following conclusions can be obtained: 1) the material removal mechanism is changed from continuous crack propagation in conventional grinding to micro crack breakage in ultrasonic vibration assisted grinding; 2) the addition of ultrasonic vibration in grinding of brittle material can reduce the crack propagation distance; 3) compared with the conventional grinding, the energy distribution of acoustic emission signal in ultrasonic vibration assisted grinding is more concentrated.
    Keywords: single diamond grain grinding; ultrasonic vibration assisted; material removal mechanism; acoustic emission signal.
    DOI: 10.1504/IJAT.2019.10019150
  • Electroplated CBN superabrasive wheel for grinding intermetallic titanium aluminide   Order a copy of this article
    by Nithin Tom Mathew, L. Vijayaraghavan 
    Abstract: An experimental investigation is reported on the surface grinding of intermetallic gamma titanium aluminide using electroplated cubic boron nitride grinding wheel. In order to implement the wide acceptability of this material in various fields, the machinability investigation finds crucial especially during grinding. In the present work, the machinability of gamma titanium aluminide of two different compositions was investigated by analysing the normal and tangential force, surface integrity, chip morphology and the condition of grinding wheel after the experiments. The minor variation in the composition of titanium aluminide has influence on the generated cutting forces, the knowledge of which is essential for satisfactory use of this material in various applications. The observations from the machined surface have shown the presence of various surface defects and the analysis of chip morphology revealed the occurrence of high temperature during the grinding. The topography of the grinding wheel is also investigated after the experiments.
    Keywords: grinding; electroplated; cubic boron nitride; CBN; intermetallic; titanium aluminide; normal force; tangential force; surface integrity; surface roughness; chip morphology.
    DOI: 10.1504/IJAT.2019.10019141