Search results

Chun4, f 1Institute of Industrial Technology, Changwon National University, Gyungnam, Korea 2School of Nano & Advanced Materials Engineering, Changwon Nat’l University, Gyungnam, Korea 3School of Materials Science & Engineering, Anhui University of Technology, Maan San, China 4School of Materials Science & Engineering, University of Ulsan, Ulsan, Korea atycho@changwon.ac.kr, bykjoo@changwon.ac.kr, cjhyoon@changwon.ac.kr, dfangwei8311@hotmail.com, eshzhang@ahut.edu, fhgchun@ulsan.ac.kr Keywords: HVOF, coating, hardness, porosity, surface.
Kim, Journal of the Korean Institute of Metals and Materials, Vol. 38 (2000), p. 125
Park, Journal of the Korean Institute of Surface Engineering, Vol. 39 (2006), p. 240
Chun, Shi-hong Zhang, Materials Science Forum Vol. 686 (2011), p. 654-660
Hwang, Journal of Advanced Materials Research, Vol. 26–28 (2007), p. 1325

Journal of Hazardous Materials,, 2023. 443(130168)
Journal of Materials Research and Technology, 2021. 13: p. 16
Journal of Marine Science and Engineering, 2022. 10(12)
Journal of King Saud University-Science, 2023. 35(7)
Journal of Materials Research and Technology, 2021. 15: p. 29

Several studies have been performed for machining of hard and brittle materials using ultrasonic vibration, which applied on either work material or cutting spindle2,6,7.
Ho11 Journal of Materials Processing Technology Vol. 62 (1996) pp.287-293
Kim, Journal of Materials Processing Technology Vol. 191 (2007) pp.153-156
Kong, Journal of materials processing technology Vol. 209 (2009) pp.32-37
Khamba, Materials Science and Engineering A460-461 (2007) pp.365-369

Commonly the fracture of the engineering materials used in micro cutting such as steel, 45 stainless steel, copper, aluminum and its alloys is often ductile fracture, the radius of cutting edge is from several microns to several microns in micro cutting, the size of grain in most of engineering materials is between 100 nm and 100 microns, the size of grain boundary is several micrometers, so tools is cutting in grain boundaries, the style of fracture is transgranular fracture.
International Journal of Machine Tools and Manufacture. 2008 Chinese: 12-13
Deformation and fracture mechanics of engineering materials.
International Journal of Mechnaical Sciences. 2007,650-660
Beijing: science and technology publishing house,2006

Materials and Methods Sample preparation.
Brown: Journal of Biomedical Materials Research Vol. 51 [4] (2000), p. 726
Uskokovic: Journal of Materials Sciences: Materials in Medicine Vol. 16 (2005), p. 621
Uskokovic: Materials Scence.
Konstantinovic: Materials Science Forum Vol. 453-454 (2004), p. 537

The prospects for using materials based on CNTs are wide and diverse owing to their unique properties which make them potentially useful for application in nanotechnology, electronics, optics and other materials science areas: for example, in conductive and high-strength composites [4-6], sensors, energy storage and conversion devices, semiconductor devices of nanometer scale [11], etc.
Rakov, Carbon nanotubes in new materials, Russian Chemical Reviews, 2013, 82(1):27
Ma, Tensile strength and electrical conductivity of carbon nanotube reinforced aluminum matrix composites fabricated by powder metallurgy combined with friction stir processing, Journal of Materials Science & Technology. 30(7) (2014) 649-655
Fan, Resonant fiber optic gyroscope using an air-core fiber, Journal of lightwave technology. 30(7) (2012) 931-937
IOP Conference Series: Materials Science and Engineering. 463 (2018) Paper № 022004.

The finite element method has been widely applied to simulate the plastic flow of part materials during the forming process.
The main reason is that the tooling structure with counterpressure is preventing the material in the round-fin cavity from moving down, which cannot stop until the materials of each round-fin in the die flow balancedly.
Acknowledgment The work was supported by the Natural Science Foundation of Zhejiang Province, PR China (Grant No.
Y1111068) and the Natural Science Foundation of Ningbo City, Zhejiang Province, PR China (Grant No.2012A610055).
Corresponding Author The information about corresponding author is as follows: Name, Kesheng Wang; Email, xclwks@126.com; Mobile phone: 15958281379 References [1] Cheng Sun, Shi-Hong Zhang, Wei Dong Tang and Zhong-Tang Wang: Materials and Manufacture Processes Vol.25(2010), P. 534 [2] Lu Xianfeng, Zhang Ruhua and Min Shuigen: Chinese Journal. of Mechanical Engineering Vol.43(2007), P.184 [3] Ulysse P, and Johnson RE: Int.

Materials & Design. 94 (2016) 457-466
Elsa, Pre-threaded hole friction stir spot welding of AA2219/PP-C30S sheets, Journal of Materials Processing Technology. 273 (2019) 116272
Kokabi, Aluminum/steel joints made by an alternative friction stir spot welding process, Journal of Materials Processing Technology. 224 (2015) 1-10
Materials Science and Engineering: R: Reports. 50 (2005) 1-78
Ma, Pinless Friction Stir Spot Welding of Mg‒3Al‒1Zn Alloy with Zn Interlayer, Journal of Materials Science & Technology. 32 (2016) 76-88

It is an attractive and cheap way of obtaining new structural materials [5, 6].
Journal of Membrane Science, 2008,322(1): 171-177
Journal of Membrane Science, 2005,262(1-2): 60-8
Journal of Membrane Science, 2008, 315(1): 36-47
Journal of membrane science, 2004, 235(1): 73-86

Belousov: Journal of Superhard Materials Vol. 4 (1987), p. 9. 3.
Tsurumi:Diamond and Related Materials Vol. 8 (1999), p. 2036. 8.
Kotenko: Compilation of Scientific Works from the Institue for Superhard Materials from National Science Academy of Kiev – Ukraine (2003), p. 179-184. 9.
Belovol, “Novel hydraulic presses for superhard materials production”.
Novikov: Diamond and Related Materials Vol. 8 (8-9) (1999), p. 1427. 13.