Wear resistance of in situ synthesized titanium compound coatings produced by laser alloying technique

In order to improve wear resistance of carbon steel, laser cladding experiments were carried out using a 3kW continuous wave CO2 laser. The diameter of the laser beam was 3-5mm, the scanning velocity was 3-10mm/s, and the laser output power was 1.0-1.3kW. The experimental results showed that MoSi2/SiCP composites coating could be in-situ synthesized from mixture powders of molybdenum, silicon and SiC by laser cladding. A good metallurgical bond between the coating and the substrate could be achieved. The microstructures of the coating were mainly composed of MoSi2, SiC and FeSiMo phases. The average microhardness of the coating was about HV0.21300, about 6.0 times larger than that of steel substrate.

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Room-temperature wear resistance of tungsten carbide composite layers produced on gray cast iron by diffusion-controlled in situ reactions

Surface and Coatings Technology ◽

10.1016/j.surfcoat.2021.127649 ◽

2021 ◽

pp. 127649

Author(s):

Xiaolong Cai ◽

Huanxi Wang ◽

Yunhua Xu ◽

Baowei Cao ◽

Mingxin Liu ◽

...

Keyword(s):

Wear Resistance ◽

Cast Iron ◽

Tungsten Carbide ◽

Room Temperature ◽

Gray Cast Iron ◽

Composite Layers ◽

Diffusion Controlled ◽

In Situ Reactions ◽

Tungsten Carbide Composite

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Effects of TiB2/TiCxratios on compression properties and abrasive wear resistance of in situ 50 vol.-% (TiB2–TiCx)/Al–Cu composites

Powder Metallurgy ◽

10.1080/00325899.2017.1400221 ◽

2017 ◽

Vol 61 (1) ◽

pp. 81-87 ◽

Cited By ~ 1

Author(s):

Lei Wang ◽

Feng Qiu ◽

Delong Yang ◽

Jingyuan Liu ◽

Fang Chang ◽

...

Keyword(s):

Wear Resistance ◽

Abrasive Wear ◽

Abrasive Wear Resistance ◽

Compression Properties

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Microstructural characteristics of SiC-B4C reinforced laser alloying composite coatings

Science and Engineering of Composite Materials ◽

10.1515/secm-2012-0164 ◽

2013 ◽

Vol 20 (4) ◽

pp. 307-310

Author(s):

Li Wei

Keyword(s):

Wear Resistance ◽

Composite Coating ◽

Fine Particles ◽

Composite Coatings ◽

Substrate Surface ◽

Laser Alloying ◽

Wear Process ◽

High Microhardness ◽

Deep Plowing ◽

Coating Matrix

AbstractA hard SiC-B4C reinforced composite coating was fabricated by laser alloying of SiC-B4C+Al-Sn-Mo-Y2O3 mixed powders on a Ti-3Al-2V alloy. Al-Sn-Mo mixed powders were first used in the laser alloying technique to improve the wear resistance of titanium alloys. Proper selection of the laser alloying process parameters allows us to obtain a composite coating with a metallurgical combination with substrate. Under the action of Mo, fine particles with high microhardness were produced in the coating matrix and also hindered the formation of adhesion patches and deep plowing grooves during the sliding wear process, leading to the improvement of wear resistance of a titanium alloy substrate surface.

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PHYSICAL PROPERTIES AND MICROSTRUCTURE PERFORMANCE OF LASER ALLOYING Zn MODIFIED AMORPHOUS-NANOCRYSTALS REINFORCED COATING

NANO ◽

10.1142/s1793292013500380 ◽

2013 ◽

Vol 08 (04) ◽

pp. 1350038 ◽

Cited By ~ 2

Author(s):

JIANQUAN LI ◽

HUASHI LIU ◽

JIANING LI ◽

GUOZHONG LI

Keyword(s):

Wear Resistance ◽

Titanium Alloy ◽

Electron Microscope ◽

Crystallization Process ◽

Laser Alloying ◽

X Ray Diffraction ◽

X Ray ◽

Amorphous Phases ◽

Transmission Electron ◽

Improve Wear Resistance

Zn was firstly used to improve wear resistance of a TA7 (Ti–5Al–2.5Sn) titanium alloy surface by mean of a laser alloying (LA) technique. The synthesis of the hard coating on a TA7 titanium alloy by LA of Co–Ti–Cr–TiB2–Zn–CeO2 pre-placed powders was investigated by means of scanning electron microscope (SEM), X-ray diffraction (XRD) and high resolution transmission electron microscope (HRTEM). Experimental results indicated lot of the nanocrystals, such as Ti–B/CoZn13 and the amorphous phases were produced in such LA coating. The nucleation and growth of the amorphous phases were retarded by the nanocrystals in a certain extent during the crystallization process of the amorphous phases. Compared with a TA7 alloy substrate, an improvement of the wear resistance was obtained for such LA composite coating.

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A Low Temperature CVD Process for TiN Coatings

MRS Proceedings ◽

10.1557/proc-168-311 ◽

1989 ◽

Vol 168 ◽

Cited By ~ 1

Author(s):

A. Aguero ◽

D. Little ◽

P. Lowden

Keyword(s):

Wear Resistance ◽

Low Temperature ◽

Titanium Nitride ◽

Vapour Deposition ◽

Chemical Vapour ◽

Reduced Pressure ◽

Tin Coatings ◽

Excellent Adhesion ◽

Low Temperature Process

AbstractA novel low temperature process for the chemical vapour deposition of titanium nitride films has been developed. Titanium sub-halides generated “in situ” by chlorination of titanium pellets are subsequently reacted with ammonia at reduced pressure and temperatures of 450–600° C. The coatings have excellent adhesion and wear resistance. A description of the process and the properties of the coatings produced by it will be presented.

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Accelerated degradation of polyetheretherketone and its composites in the deep sea

Royal Society Open Science ◽

10.1098/rsos.171775 ◽

2018 ◽

Vol 5 (4) ◽

pp. 171775 ◽

Cited By ~ 2

Author(s):

Hao Liu ◽

Jianzhang Wang ◽

Pengfei Jiang ◽

Fengyuan Yan

Keyword(s):

Mechanical Properties ◽

Wear Resistance ◽

Hydrostatic Pressure ◽

Deep Sea ◽

Normal Pressure ◽

Wear Behaviour ◽

Special Equipment ◽

Accelerated Degradation ◽

Seawater Environment

The performance of polymer composites in seawater, under high hydrostatic pressure (typically few tens of MPa), for simulating exposures at great depths in seas and oceans, has been little studied. In this paper, polyetheretherketone (PEEK) and its composites reinforced by carbon fibres and glass fibres were prepared. The seawater environment with different seawater hydrostatic pressure ranging from normal pressure to 40 MPa was simulated with special equipment, in which the seawater absorption and wear behaviour of PEEK and PEEK-based composites were examined in situ . The effects of seawater hydrostatic pressure on the mechanical properties, wear resistance and microstructure of PEEK and its composites were focused on. The results showed that seawater absorption of PEEK and its composites were greatly accelerated by increased hydrostatic pressure in the deep sea. Affected by seawater absorption, both for neat PEEK and composites, the degradation on mechanical properties, wear resistance and crystallinity were induced, the degree of which was increasingly serious with the increase of hydrostatic pressure of seawater environment. There existed a good correlation in an identical form of exponential function between the wear rate and the seawater hydrostatic pressure. Moreover, the corresponding mechanisms of the effects of deep-sea hydrostatic pressure were also discussed.

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Effect of in situ formation of tungsten semicarbide on the microstructure and mechanical properties of medium carbon steel composites

Metallurgical Research & Technology ◽

10.1051/metal/2021080 ◽

2021 ◽

Vol 118 (6) ◽

pp. 606

Author(s):

Nandish Girishbhai Soni ◽

Akash Ganesh Mahajan ◽

Kaustubh Ramesh Kambale ◽

Sandeep Prabhakar Butee

Keyword(s):

Mechanical Properties ◽

Particle Size ◽

Wear Resistance ◽

Carbon Steel ◽

Sintered Density ◽

Medium Carbon Steel ◽

Complete Conversion ◽

Medium Carbon ◽

In Situ Formation

Fabrication with the in-situ formation of W2C reinforced medium carbon steel (MCS) MMC’s was attempted using W or WO3 and graphite addition to steel. The P/M route comprising milling, compaction and sintering at 1050 °C and 1120 °C respectively in 90% N2 + 10% H2 atmosphere was adopted. Both SEM and BET studies revealed the particle size to be around 100, 7 and 40 µm for MCS, W and WO3, respectively. A complete conversion of tungsten into tungsten semicarbide (W2C) was noted in XRD for the tungsten additions of ∼6, 9 and 12 wt.% with stoichiometrically balanced C (graphite) addition of 0, 0.2 and 0.4 wt.%. However, WO3 + C addition (balanced as above) revealed the partial conversion of WO3 to W2C. The peaks of Fe3C were observed only for MCS + W + C samples and not for MCS + WO3 + C samples in XRD. In SEM, the WO3 phase appeared porous and partially converted, whereas, W2C phase was dense. Sintered density improved for the addition of W, whereas it monotonically reduced for WO3 addition to MCS + C samples. Higher hardness, compressive strength, and wear resistance was noted for W addition than WO3 to MCS+C samples.

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Microstructural Characterization, Mechanical Properties and Wear Resistance of TiCP Reinforced Ni-Alloy Coatings by Laser Synthesis

10.1115/imece2000-2639 ◽

2000 ◽

Author(s):

D. L. Tu ◽

A. Kar ◽

X. L. Wu

Keyword(s):

Electron Microscopy ◽

Transmission Electron Microscopy ◽

Wear Resistance ◽

Chemical Reaction ◽

Phase Interface ◽

High Fracture Toughness ◽

Transmission Electron ◽

Ni Alloy ◽

The Matrix

Abstract Titanium carbide particle (TiCp)-reinforced Ni alloy composite coatings are synthesized by laser cladding using a cw 3 kW CO2 laser. Two kinds of coatings are possible in terms of the origin of TiCp: undissolved TiCp and in-situ generated TiCp. The former originates from the TiCp pre-coated on the sample whereas the latter from in-situ chemical reaction between titanium and graphite in the molten pool during laser irradiation. For the coating reinforced by TiCp formed in-situ, the sub-micron TiCp particles are formed and uniformly distributed because of the in-situ reaction and trapping effect during rapid solidification. Graded distribution of TiCp is obtained on a macro scale. The volume fraction increases from 1.86% at the coating-substrate interface to 38.4% at the coating surface. For the coating reinforced by undissolved TiCp, analytical transmission electron microscopy (ATEM) and high resolution transmission electron microscopy (HRTEM) observations show the existence of the epitaxial growth of TiC, the precipitation of CrB and M23C6, and the chemical reaction between Ti and B elements around phase interfaces of undissolved TiCp. In the matrix near the phase interface of undissolved TiCp, the loading curve obtained by nanoindenter exhibits pop-in phenomena due to the plastic deformation of cracks or debonding of TiCp from the matrix. For TiCp generated in-situ, no pop-in mark appears, indicating high fracture toughness. Coating with TiCp generated in-situ exhibits higher hardness and modulus than the coating with undissolved TiCp at regions near the phase interface. The coating reinforced by TiCp generated in-situ also displays higher impact wear resistance and abrasive wear resistance compared to the coatings with undissolved TiCp and without TiCp respectively.

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