Experimental Studies on the Centrifugal MQL-CCA Method of Applying Coolant during the Internal Cylindrical Grinding Process

Nadolny, Krzysztof; Kieraś, Seweryn

doi:10.3390/ma13102383

Cited by 14 publications

(14 citation statements)

References 64 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The results of numerical simulations [126] and experimental research [127] have shown that the developed hybrid method allows for about 2.7 times longer wheel life in comparison with the results obtained under flooded cooling or centrifugal MQL conditions. The wheel life was as much as 8 times longer in comparison with the wheel life under SSP only delivering or dry grinding conditions.…”

Section: Centrifugal Mql and Delivery Of Compressed Cold Airmentioning

confidence: 88%

“…They were the motivation to undertake work aimed at applying the CAOM method also in the process of internal cylindrical grinding characterized by limited space in the contact zone of the grinding wheel with the workpiece. This is how the method was developed in which a patented centrifugal air-oil aerosol delivering through the grinding wheel [124] was combined while simultaneous incorporating the CAG nozzle into the system [125][126][127].…”

Section: Centrifugal Mql and Delivery Of Compressed Cold Airmentioning

confidence: 99%

“…One end of the supply line was directed in front of the grinding zone to cool it down while the other end was placed directly behind the grinding wheel-workpiece contact zone to support the blowing out of machining products (Fig. 4) [126,127].…”

Section: Centrifugal Mql and Delivery Of Compressed Cold Airmentioning

confidence: 99%

“…As a result, the abrasive wear of the active abrasive grains vertices was reduced and the GWAS retained their cutting ability over a longer time. It has also been shown that the additional CCA stream directed behind the grinding wheel prevents the accumulation of chips in the grinding zone and their re-entry between the GWAS and the machined surface [127].…”

Section: Centrifugal Mql and Delivery Of Compressed Cold Airmentioning

confidence: 99%

“…Internal cylindrical grinding process using a hybrid method of cooling and lubrication integrating centrifugal MQL and cooling with a stream of CCA: a view of the machining zone; b grinding power gain ΔP values during grinding wheel lifespan; c average grinding power gain ΔP av with its standard deviation σ; d grinding ratio G = V w /V s (on the basis of[127])…”

mentioning

confidence: 99%

See 4 more Smart Citations

Modern Approach to Delivery Coolants, Lubricants and Antiadhesives in the Environmentally Friendly Grinding Processes

Nadolny

Kieraś

Sutowski

2020

Int. J. of Precis. Eng. and Manuf.-Green Tech.

Self Cite

View full text Add to dashboard Cite

Control of thermal conditions in the grinding zone is possible through effective delivery of substances with cooling, lubricating and antiadhesive properties during the machining process. In addition to the benefits of coolants, however, a number of economic and ecological problems arise, which include the costs of purchase, use and maintenance as well as the environmental impact of its disposal. These negative aspects of the use of cooling and lubricating liquids have contributed to the modern trend of minimizing their output in machining processes, including grinding. This article presents comprehensive characteristics of knowledge in the field of liquids, gases and solids with cooling, lubricating and antiadhesive properties. The author’s original classification of cooling and lubricating agents by their physical state was proposed and a complete list of known modern environmentally friendly methods of cooling and lubrication of the grinding zone was presented. In order to highlight their beneficial features, the background of conventional methods of delivery coolants, lubricants and antiadhesives to the grinding zone used for years were also characterised. A comprehensive list of all known methods of cooling and lubrication of the grinding zone classified according to the physical state of the delivered medium with a clear separation of hybrid methods consisting in simultaneous delivery of many cooling and lubricating agents was described in the summary. The article concludes with the characteristics of directions of further development in the field of cooling and lubrication of the grinding zone.

show abstract

Section: Centrifugal Mql and Delivery Of Compressed Cold Airmentioning

confidence: 88%

Section: Centrifugal Mql and Delivery Of Compressed Cold Airmentioning

confidence: 99%

Section: Centrifugal Mql and Delivery Of Compressed Cold Airmentioning

confidence: 99%

Section: Centrifugal Mql and Delivery Of Compressed Cold Airmentioning

confidence: 99%

mentioning

confidence: 99%

See 3 more Smart Citations

Modern Approach to Delivery Coolants, Lubricants and Antiadhesives in the Environmentally Friendly Grinding Processes

Nadolny

Kieraś

Sutowski

2020

Int. J. of Precis. Eng. and Manuf.-Green Tech.

Self Cite

View full text Add to dashboard Cite

show abstract

A review on conventional and advanced minimum quantity lubrication approaches on performance measures of grinding process

Gupta

Khan

Song

et al. 2021

Int J Adv Manuf Technol

View full text Add to dashboard Cite

Study on flow field and convective heat transfer characteristics in grinding zone of large spiral angle flow disturbance grooved wheel

Mao,

Liu,

Jiang

et al. 2023

Int J Adv Manuf Technol

View full text Add to dashboard Cite

In view of the high specific removal energy, high heat generation rate, low heat transfer efficiency, easy to produce local high temperature and grinding burns, new macrostructured grinding wheel forms were proposed, namely, Large Spiral-angle Grooved Grinding Wheels (LSG-GW, β>85°) and Large Spiral-angle flow Disturbance Grooved Wheels (LSDG-GW). Considering the influence of wheel parameters, groove parameters and process parameters, an analytical model of the airflow field in the wedge area and contact area of LSG-GW was established. Analytical model of gas-liquid two-phase flow field and theoretical model of convective heat transfer coefficient distribution in heat transfer channels were established.The results showed that increasing the groove width, groove depth and the spiral angle can reduce the pressure of the flow field in the air barrier layer and make it easier for the grinding fluid to enter the grinding contact area. The LSDG-GW further reduces the grinding fluid back flow and side flow intensity, proving that the flow disturbance structure can bring in more grinding fluid into the grinding contact area. A theoretical model for the distribution of convective heat transfer coefficient in the grinding contact area was derived, and the analysis results proved that the flow disturbance structure can significantly improve the convective heat transfer coefficient in the grinding contact area. The LSDG-GW, as a new macro surface structured grinding wheel, has a very promising application in the high efficiency and high precision grinding process of difficult-to-machine alloy materials.

show abstract

Experimental Studies on the Centrifugal MQL-CCA Method of Applying Coolant during the Internal Cylindrical Grinding Process

Cited by 14 publications

References 64 publications

Modern Approach to Delivery Coolants, Lubricants and Antiadhesives in the Environmentally Friendly Grinding Processes

Modern Approach to Delivery Coolants, Lubricants and Antiadhesives in the Environmentally Friendly Grinding Processes

A review on conventional and advanced minimum quantity lubrication approaches on performance measures of grinding process

Study on flow field and convective heat transfer characteristics in grinding zone of large spiral angle flow disturbance grooved wheel

Contact Info

Product

Resources

About