scholarly journals Residual Strain Measurement in Thermal Spray Cermet Coatings via Neutron Diffraction

2006 ◽  
Author(s):  
R. Ahmed ◽  
H. Yu ◽  
S. Stewart ◽  
L. Edwards ◽  
J. Santisteban
Keyword(s):  
Neutron Diffraction ◽  
Thermal Spray ◽  
Residual Strain ◽  
Strain Measurement ◽  
Cermet Coatings

Neutron diffraction residual strain measurements in post-treated thermal spray cermet coatings

2008 ◽  
Vol 498 (1-2) ◽  
pp. 191-202 ◽  
Author(s):  
R. Ahmed ◽  
H. Yu ◽  
V. Stoica ◽  
L. Edwards ◽  
J.R. Santisteban
Keyword(s):  
Neutron Diffraction ◽  
Thermal Spray ◽  
Residual Strain ◽  
Strain Measurements ◽  
Cermet Coatings

scholarly journals Measuring residual strain and stress in thermal spray coatings using neutron diffractometers

2021 ◽  
Author(s):  
Nadimul Haque Faisal ◽  
Rehan Ahmed ◽  
Anil K Prathuru ◽  
Anna Paradowska ◽  
Tung Lik Lee
Keyword(s):  
Neutron Diffraction ◽  
Diffraction Analysis ◽  
Thermal Spray ◽  
Residual Strain ◽  
Spray Coating ◽  
Thermal Spray Coating ◽  
Thermal Spray Coatings ◽  
Neutron Sources ◽  
Neutron Diffraction Analysis ◽  
Spray Coatings

Abstract Background: During thermal spray coating, residual strain is formed within the coating and substrates due to thermo-mechanical processes and microstructural phase changes. Objective: This paper provides a comprehensive guide to researchers planning to use neutron diffraction technique for thermal spray coatings, and reviews some of these studies. Methods: ENGIN-X at the ISIS spallation source is a neutron diffractometer (time-of-flight) dedicated to materials science and engineering with high resolution testing. The focus is on the procedure of using ENGIN-X diffractometer for thermal spray coatings with a view that it can potentially be translated to other diffractometers. Results: Number of studies involving neutron diffraction analysis in thermal spray coatings remain limited, partly due to limited number of such strain measurement facilities globally, and partly due to difficulty is applying neutron diffraction analysis to measure residual strain in the thermal spray coating microstructure. Conclusions: This technique can provide a non-destructive through-thickness residual strain analysis in thermally sprayed components with a level of detail not normally achievable by other techniques. Neutron sources have been used to measure strains in thermal spray coatings, and here, we present examples where such coatings have been characterised at various neutron sources worldwide, to study residual strains and microstructures.

Residual strain measurement using neutron diffraction for practical Nb3Sn wires under a tensile load

2010 ◽  
Vol 23 (2) ◽  
pp. 025034 ◽  
Author(s):  
Hidetoshi Oguro ◽  
Satoshi Awaji ◽  
Gen Nishijima ◽  
Kohki Takahashi ◽  
Kazuo Watanabe ◽  
...  
Keyword(s):  
Neutron Diffraction ◽  
Residual Strain ◽  
Strain Measurement ◽  
Tensile Load

scholarly journals Measuring Residual Strain and Stress in Thermal Spray Coatings Using Neutron Diffractometers

2021 ◽  
Author(s):  
N. H. Faisal ◽  
R. Ahmed ◽  
A. K. Prathuru ◽  
A. Paradowska ◽  
T. L. Lee
Keyword(s):  
Neutron Diffraction ◽  
Diffraction Analysis ◽  
Thermal Spray ◽  
Residual Strain ◽  
Spray Coating ◽  
Thermal Spray Coating ◽  
Thermal Spray Coatings ◽  
Neutron Sources ◽  
Neutron Diffraction Analysis ◽  
Spray Coatings

Abstract Background During thermal spray coating, residual strain is formed within the coating and substrates due to thermo-mechanical processes and microstructural phase changes. Objective This paper provides a comprehensive guide to researchers planning to use neutron diffraction technique for thermal spray coatings, and reviews some of these studies. Methods ENGIN-X at the ISIS spallation source is a neutron diffractometer (time-of-flight) dedicated to materials science and engineering with high resolution testing. The focus is on the procedure of using ENGIN-X diffractometer for thermal spray coatings with a view that it can potentially be translated to other diffractometers. Results Number of studies involving neutron diffraction analysis in thermal spray coatings remain limited, partly due to limited number of such strain measurement facilities globally, and partly due to difficulty is applying neutron diffraction analysis to measure residual strain in the thermal spray coating microstructure. Conclusions This technique can provide a non-destructive through-thickness residual strain analysis in thermally sprayed components with a level of detail not normally achievable by other techniques. Neutron sources have been used to measure strains in thermal spray coatings, and here, we present examples where such coatings have been characterised at various neutron sources worldwide, to study residual strains and microstructures. Graphic Abstract

Residual Strain Measurements in Thermal Spray Cermet Coatings via Neutron Diffraction

2007 ◽  
Vol 129 (2) ◽  
pp. 411-418 ◽  
Author(s):  
R. Ahmed ◽  
H. Yu ◽  
S. Stewart ◽  
L. Edwards ◽  
J. R. Santisteban
Keyword(s):  
Neutron Diffraction ◽  
Residual Strain ◽  
Strain Measurement ◽  
Strain Field ◽  
Contact Fatigue ◽  
Synchrotron Diffraction ◽  
Thickness Strain ◽  
Strain Measurements ◽  
X Ray ◽  
Neutron Diffraction Technique

The impact and fatigue resistance of overlay coatings is significantly influenced by the residual strain (or stress) field induced during coating deposition, post-treatment, and in-service loading. Optimization of the residual strain field is therefore critical to the life and performance of components. Nondestructive measurement of these strain fields in relatively thin (300-400μm) thermal spray coatings, however, poses a challenge because conventional techniques, such as deep hole drilling, x-ray diffraction, synchrotron diffraction, and changes in beam curvature either make these techniques destructive and/or provides only a very near-surface strain measurement. This particularly complicates the strain analysis in cermet coatings, e.g., WC-Co deposited by the thermal spraying process, where the low penetration depth of x-ray and synchrotron-diffraction ray can only provide a through thickness measurement of stress or strain profile via the destructive layer removal technique. Recent investigations have therefore concentrated on the use of neutron diffraction technique for such analysis, and this paper reports some of the early findings of the comparison of through thickness strain measurements in relatively thin (400μm) as-sprayed and post-treated WC-12wt.%Co coatings via the neutron diffraction technique. Since neutrons are not charged, they do not interact with the electron cloud surrounding the atom (unlike x-ray); hence, diffraction results from the interaction with the atomic nucleus. Neutrons therefore have greater penetration depth in most engineering materials, and therefore provide a nondestructive through thickness strain measurement. Results of strain measurement are discussed with the structure property relationships and contact fatigue performance, and indicate that post-treatment of these coatings results in harmonization of the strain field within the coating, and at the coating substrate interface. This significantly influences the contact fatigue performance by improving both the cohesive and adhesive strength of these coatings.

Residual Strain Measurement of C/C-SiC Tubes at High Temperature

2006 ◽  
Vol 524-525 ◽  
pp. 665-670 ◽  
Author(s):  
Robert C. Wimpory ◽  
Carsten Ohms ◽  
P. Horňák ◽  
Dimitar Neov ◽  
Anastasius Youtsos
Keyword(s):  
High Temperature ◽  
Neutron Diffraction ◽  
Residual Strain ◽  
Strain Measurement ◽  
Structural Integrity ◽  
Research Centre ◽  
Vacuum Furnace ◽  
Joint Research ◽  
Integrity Assessment ◽  
Residual Strains

As part of the European project “high and ultrahigh temperature heat exchangers” (HITHEX) the prediction and experimental assessment of the lifetime behaviour, characterisation and qualification of particular CMC materials, including carbon fibre reinforced carbonsiliconcarbides (C/C-SiC), has been executed. Part of the programme of the HITHEX project was the measurement of the strain development within the C/C-SiC tubular specimens from room to high temperature, the results of which are presented here. Residual strains have been determined in several specimens by neutron diffraction at the High Flux Reactor (HFR) of the Joint Research Centre in Petten, The Netherlands. At the HFR two facilities are available for residual strain investigations. Both instruments were utilised in the investigations. The first facility at beam tube HB5, the combined stress and powder diffractometer, employs a constant neutron wavelength of 0.257 nm, and the second facility at HB4, the Large Component Neutron diffraction facility, LCNDF, has a flexible wavelength. The installation of a vacuum furnace has enabled the residual strain measurement of specimens at high temperature on HB4. The furnace had to fulfil three main criteria for the investigation of these specimens; high-temperature, good neutron penetration and negligible oxidation of the specimens. The ceramic specimens, which have outer and inner diameters of 50 and 40 mm, respectively, and a length of 100 mm have been measured to temperatures of up to 1450°C. Measurements were carried out in two directions on the SiC phase of several specimens, i.e. in the radial and tangential (hoop) directions. The implications of these results with respect to the structural integrity assessment of these components at high temperatures are discussed.

scholarly journals Combating Wear of ASTM A36 Steel by Surface Modification Using Thermally Sprayed Cermet Coatings

2016 ◽  
Vol 2016 ◽  
pp. 1-10 ◽  
Author(s):  
Vineet Shibe ◽  
Vikas Chawla
Keyword(s):  
Thermal Spray ◽  
Sliding Wear ◽  
Thermal Spray Coatings ◽  
Wear Performance ◽  
Cermet Coatings ◽  
Spray Coatings ◽  
Spray Technique ◽  
A36 Steel ◽  
Thermally Sprayed ◽  
Better Than

Thermal spray coatings can be applied economically on machine parts to enhance their requisite surface properties like wear, corrosion, erosion resistance, and so forth. Detonation gun (D-Gun) thermal spray coatings can be applied on the surface of carbon steels to improve their wear resistance. In the present study, alloy powder cermet coatings WC-12% Co and Cr3C2-25% NiCr have been deposited on ASTM A36 steel with D-Gun thermal spray technique. Sliding wear behavior of uncoated ASTM A36 steel and D-Gun sprayed WC-12% Co and Cr3C2-25% NiCr coatings on base material is observed on a Pin-On-Disc Wear Tester. Sliding wear performance of WC-12% Co coating is found to be better than the Cr3C2-25% NiCr coating. Wear performance of both these cermet coatings is found to be better than uncoated ASTM A36 steel. Thermally sprayed WC-12% Co and Cr3C2-25% NiCr cermet coatings using D-Gun thermal spray technique is found to be very useful in improving the sliding wear resistance of ASTM A36 steel.

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