個人簡介：

I completed my Ph.D. in Mechanical Manufacture and Automation from Nanjing University of Aeronautics and Astronautics (NUAA) and currently serving as Associate Prof Mechanical Manufacture and Automation at Nanjing University of Aeronautics and Astronautics (NUAA). Being acknowledged in Stanford's list of the top 2% scientists worldwide in 2022 and nominated for the HEC Young Scholar Award-2023 and the National Civil award from Pakistan has been a humbling recognition of my contributions. I have participated in some NSFC projects of China. I am serving as Technical Editor of Machining Science and Technology (MST).

Currently, I have submitted the outcomes of our proposed novel machining method in prestigious journal of Manufacturing Processes under Research Grant (Grant number: UBD/RSCH/URC/RG(b)/2020/019) provide by Universiti Brunei Darussalam.

Currently research direction is in 可持續制造 (sustainable manufacturing), 高速加工 (high speed machining), 生命周期工程 (life cycle engineering). My publication can be found on following links.

https://scholar.google.com.pk/citations?user=FUwFC6IAAAAJ&hl=en.

工作經曆：

2020.01—2021.04    助理教授       瑞典工程技術學院

2021.04—2022.07    助理教授       拉合爾工程技術大學

2022.07—2023.10    助理教授       拉合爾查誇大學

2023.10—現在       副教授           ag真人百家家乐平台

2023.10—現在       技術編輯       機械加工科學與技術 ( SCI Journal)

教育背景:                                                     

2016.09—2019.12    博士   ag真人百家家乐平台

2014.08—2016.09    碩士   塔克西拉工程技術大學

2009.09—2013.07    學士   塔克西拉工程技術大學

學術成果：

I have published more than 100 scientific articles, edited one book, H-index 31 and i-10 index 72 and my research outcomes were cited by 4000 times by international scholars. More than 5 oral presentations at international conferences, and applied for one national invention patents.

主要代表作如下：

[1]Aqib M. Khan(Aqib. M. Khan), Jamil, M., He Ning, et al. Energy consumption, carbon emission, and cost assessment under new system boundaries - A case study of nanofluid assisted machining.Renewable&Sustainable Energy Reviews. (2020)(SCI, IF=14.9).

[2]Aqib M. Khan, Anwar, S., Alfaify, A., Jamil, (2022). Comparison of machinability and economic aspects in turning of Haynes-25 alloy under novel hybrid cryogenic-LN oils-on-water approach. The International Journal of Advanced Manufacturing Technology,1-19. (SCI, IF=3.22).

[3]Aqib M. Khan, Alkahtani, M., Sharma, S., Jamil, M., Iqbal, A., & He, N. (2021). Sustainability-based holistic assessment and determination of optimal resource consumption for energy-efficient machining of hardened steel. Journal of Cleaner Production, 319, 128674. (SCI, IF=9.29).

[4]Aqib M. Khan, Hussain, G., Alkahtani, M., Alzabidi, A., Abidi, M. H., & He, N. (2021). Holistic sustainability assessment of hybrid Al–GnP-enriched nanofluids and textured tool in machining of Ti–6Al–4V alloy. The International Journal of Advanced Manufacturing Technology, 112(3), 731-743. (SCI, IF=3.21).

[5]Aqib M. Khan, Gupta, M. K., Hegab, H., (2020). Energy-based cost integrated modelling and sustainability assessment of Al-GnP hybrid nanofluid assisted turning of AISI52100 steel. Journal of Cleaner Production, 257, 120502. (SCI, IF=9.29).

[6]Aqib M. Khan, Jamil, M., Mia, M., He, N., Zhao, W., & Gong, L. (2020). Sustainability-based performance evaluation of hybrid nanofluid assisted machining. Journal of Cleaner Production, 257, 120541. (SCI, IF=9.29).

[7]Aqib M. Khan, Zhao, W., Li, L., Alkahtani, M., Hasnain, S., Jamil, M., & He, N. (2021). Assessment of cumulative energy demand, production cost, and CO2 emission from hybrid CryoMQL assisted machining. Journal of Cleaner Production, 292, 125952. Journal of Cleaner Production. (SCI, IF=9.29).

[8]Aqib M. Khan, He Ning et al. Cryogenic-LN₂ and Conventional Emulsion Assisted Machining of Hardened Steel: Comparison from Sustainability Perspective. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture. (SCI, IF=1.75).

[9]Aqib M. Khan, G. Hussain et al. Holistic sustainability assessment of hybrid Al-GnP enriched nanofluids and textured-tool in machining of Ti-6Al-4V alloy. Advanced Manufacturing Technology, 1-15. (SCI, IF=2.6).

著書:

[1]Aqib M. Khan et al., M. (2021). Fabrication of Smart-Meter for Power Consumption Measurements of Machine Tools. In Functional Reverse Engineering of Strategic and Non-Strategic Machine Tools (pp. 227-247). CRC Press. (WRE 2020 Book Series).

發明專利：

[1]submitted, in progress

獲獎情況：

[1]Aqib Mashood Khan got out standing award from NUAA in PhD

[2]Aqib Mashood Khan got his name in Stanford's list of the top 2% scientists of the entire world

講授課程：

《Material and Manufacturing》，《Machining tool and Manufacturing》，《Metal cutting principles》

承擔項目：

[1]National Key Research and Development Project [Grant No. 2018YFB2002202], China.

Project title:Low-temperature dry cutting mechanism and low-temperature functional components design theory and methods

[2]Fundamental Research Funds for the Central Universities [Grant No. NP2018302],China.

Project title:Clean cutting basic theory and cutting-edge technology research

[3]National Key Research and Development Program Grant No2020YFB2010605,China.

Project title:Clean Cutting Demonstration and Application Support Technology and Equipment

[4]NSFC Research Fund for International Young Scientists Grant No: 52250410358, China.

Project title:Design, manufacture and implement a novel and sustainable hybrid dry ice blasting system to improve the machinability of aerospace alloys.

[5]Raytheon Chair for Systems Engineering (RCSE) funding, King Saud University, Riyadh, Saudi Arabia.

[6]Deanship of Scientific Research at King Saud University funding through research group no. RG-1438-088, King Saud University, Riyadh, Saudi Arabia.

[7]Researchers Supporting Project number (RSP-2020/256), King Saud University, Riyadh, Saudi Arabia.

[8]Research Grant (Grant number: UBD/RSCH/1.3/FICBF(b)/2021/015), Universiti Brunei Darussalam, Brunei.

指導研究生情況：

已指導博士生1名，碩士生1名，本科生10名。