Characterization of Nanolayer Intermetallics Formed in Cold Sprayed Al Powder on Mg Substrate

Characterization of Nanolayer Intermetallics Formed in Cold Sprayed Al Powder on Mg Substrate

Supersonic impact of particles in their solid state with substrate at a low temperature creates a complex bonding mechanism and surface modification in cold spray coating. Here, we report the formation of a layer of 200 to 300 nm intermetallic at the interface of cold spray coated AZ31B-type Mg allo...

Full description

Bibliographic Details
Main Authors: Sugrib Kumar Shaha, Hamid Jahed
Format: Article
Language:English
Published: MDPI AG 2019-04-01
Series:Materials
Subjects:
cold spray Coating
magnesium alloy
aluminum powder
bonding mechanism
nanoindentation
Online Access:https://www.mdpi.com/1996-1944/12/8/1317
id doaj-3dcd8e0d9e8d4f4cbf02d1bcbe6151d7
record_format Article
spelling doaj-3dcd8e0d9e8d4f4cbf02d1bcbe6151d72020-11-25T00:52:24ZengMDPI AGMaterials1996-19442019-04-01128131710.3390/ma12081317ma12081317Characterization of Nanolayer Intermetallics Formed in Cold Sprayed Al Powder on Mg SubstrateSugrib Kumar Shaha0Hamid Jahed1Department of Mechanical &amp; Mechatronics Engineering, University of Waterloo, 200 University Ave W, Waterloo, ON N2L 3G1, CanadaDepartment of Mechanical &amp; Mechatronics Engineering, University of Waterloo, 200 University Ave W, Waterloo, ON N2L 3G1, CanadaSupersonic impact of particles in their solid state with substrate at a low temperature creates a complex bonding mechanism and surface modification in cold spray coating. Here, we report the formation of a layer of 200 to 300 nm intermetallic at the interface of cold spray coated AZ31B-type Mg alloy with AA7075-type Al alloy powder. XRD, SAED, and FFT analysis confirmed the layer possessed BBC crystal structure of Mg<sub>17</sub>Al<sub>12</sub> intermetallic. The HR-TEM image analysis at the interface identified the BBC crystal structure with interplanar spacing of 0.745 nm for (110) planes, suggesting the Mg<sub>17</sub>Al<sub>12</sub> phase. The nanoindentation tests showed that the hardness at the interface was ~3 times higher than the substrate. It was also noticed that Young&#8217;s modulus at the interface was 117GPa. The combined action of impact energy and carrier gas temperature, along with the multiple passes during coating, caused the formation of intermetallic.https://www.mdpi.com/1996-1944/12/8/1317cold spray Coatingmagnesium alloyaluminum powderbonding mechanismnanoindentation
collection DOAJ
language English
format Article
sources DOAJ
author Sugrib Kumar Shaha
Hamid Jahed
spellingShingle Sugrib Kumar Shaha
Hamid Jahed
Characterization of Nanolayer Intermetallics Formed in Cold Sprayed Al Powder on Mg Substrate
Materials
cold spray Coating
magnesium alloy
aluminum powder
bonding mechanism
nanoindentation
author_facet Sugrib Kumar Shaha
Hamid Jahed
author_sort Sugrib Kumar Shaha
title Characterization of Nanolayer Intermetallics Formed in Cold Sprayed Al Powder on Mg Substrate
title_short Characterization of Nanolayer Intermetallics Formed in Cold Sprayed Al Powder on Mg Substrate
title_full Characterization of Nanolayer Intermetallics Formed in Cold Sprayed Al Powder on Mg Substrate
title_fullStr Characterization of Nanolayer Intermetallics Formed in Cold Sprayed Al Powder on Mg Substrate
title_full_unstemmed Characterization of Nanolayer Intermetallics Formed in Cold Sprayed Al Powder on Mg Substrate
title_sort characterization of nanolayer intermetallics formed in cold sprayed al powder on mg substrate
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2019-04-01
description Supersonic impact of particles in their solid state with substrate at a low temperature creates a complex bonding mechanism and surface modification in cold spray coating. Here, we report the formation of a layer of 200 to 300 nm intermetallic at the interface of cold spray coated AZ31B-type Mg alloy with AA7075-type Al alloy powder. XRD, SAED, and FFT analysis confirmed the layer possessed BBC crystal structure of Mg<sub>17</sub>Al<sub>12</sub> intermetallic. The HR-TEM image analysis at the interface identified the BBC crystal structure with interplanar spacing of 0.745 nm for (110) planes, suggesting the Mg<sub>17</sub>Al<sub>12</sub> phase. The nanoindentation tests showed that the hardness at the interface was ~3 times higher than the substrate. It was also noticed that Young&#8217;s modulus at the interface was 117GPa. The combined action of impact energy and carrier gas temperature, along with the multiple passes during coating, caused the formation of intermetallic.
topic cold spray Coating
magnesium alloy
aluminum powder
bonding mechanism
nanoindentation
url https://www.mdpi.com/1996-1944/12/8/1317
work_keys_str_mv AT sugribkumarshaha characterizationofnanolayerintermetallicsformedincoldsprayedalpowderonmgsubstrate
AT hamidjahed characterizationofnanolayerintermetallicsformedincoldsprayedalpowderonmgsubstrate
_version_ 1725242554605109248

Similar Items