@book{
 title = {Research of TiN coatings by means of gas tunnel type plasma reactive spraying},
 type = {book},
 year = {2005},
 source = {Novel Materials Processing by Advanced Electromagnetic Energy Sources},
 identifiers = {[object Object]},
 pages = {427-432},
 id = {9e534013-b8b4-33ef-8236-e6a6837b5a4b},
 created = {2018-09-25T07:52:35.513Z},
 file_attached = {false},
 profile_id = {1a73be13-27f1-3556-95c5-66a76ed8d326},
 last_modified = {2018-09-25T08:38:34.153Z},
 read = {false},
 starred = {false},
 authored = {true},
 confirmed = {false},
 hidden = {false},
 private_publication = {false},
 abstract = {This chapter discusses the research of titanium nitride (TiN) coating by means of gas tunnel type plasma reactive spraying. The TiN sprayed coating with thickness of 100-200 /m could be obtained in a short time of 10s by means of gas tunnel type plasma reactive spraying. The chapter investigates the properties of TiN sprayed coating, the cross-section of TiN coating observed by an optical microscope and the structure of TiN coating. Vickers hardness of TiN coatings is measured when the spraying distance is l=60 mm and l=70 mm. The relations between the spraying distance 'l' and Vickers Hardness 'Hv' on the cross-section of TiN sprayed coating is also clarified. The adhesive strength of TiN coating is measured and discussed. TiN coatings have a wide range of applications due to the practical properties such as high hardness, good corrosion resistance, heat resistance and excellent wear resistance. It can be deposited by physical vapor deposition (PVD) evaporation, sputtering, ion plating, and chemical vapor deposition (CVD). © 2005 Elsevier Ltd. All rights reserved.},
 bibtype = {book},
 author = {Jiang, W. and Kobayashi, A.}
}

{"_id":"5RoYpm9j57hHRseck","bibbaseid":"jiang-kobayashi-researchoftincoatingsbymeansofgastunneltypeplasmareactivespraying-2005","downloads":0,"creationDate":"2018-09-25T09:03:13.372Z","title":"Research of TiN coatings by means of gas tunnel type plasma reactive spraying","author_short":["Jiang, W.","Kobayashi, A."],"year":2005,"bibtype":"book","biburl":null,"bibdata":{"title":"Research of TiN coatings by means of gas tunnel type plasma reactive spraying","type":"book","year":"2005","source":"Novel Materials Processing by Advanced Electromagnetic Energy Sources","identifiers":"[object Object]","pages":"427-432","id":"9e534013-b8b4-33ef-8236-e6a6837b5a4b","created":"2018-09-25T07:52:35.513Z","file_attached":false,"profile_id":"1a73be13-27f1-3556-95c5-66a76ed8d326","last_modified":"2018-09-25T08:38:34.153Z","read":false,"starred":false,"authored":"true","confirmed":false,"hidden":false,"private_publication":false,"abstract":"This chapter discusses the research of titanium nitride (TiN) coating by means of gas tunnel type plasma reactive spraying. The TiN sprayed coating with thickness of 100-200 /m could be obtained in a short time of 10s by means of gas tunnel type plasma reactive spraying. The chapter investigates the properties of TiN sprayed coating, the cross-section of TiN coating observed by an optical microscope and the structure of TiN coating. Vickers hardness of TiN coatings is measured when the spraying distance is l=60 mm and l=70 mm. The relations between the spraying distance 'l' and Vickers Hardness 'Hv' on the cross-section of TiN sprayed coating is also clarified. The adhesive strength of TiN coating is measured and discussed. TiN coatings have a wide range of applications due to the practical properties such as high hardness, good corrosion resistance, heat resistance and excellent wear resistance. It can be deposited by physical vapor deposition (PVD) evaporation, sputtering, ion plating, and chemical vapor deposition (CVD). © 2005 Elsevier Ltd. All rights reserved.","bibtype":"book","author":"Jiang, W. and Kobayashi, A.","bibtex":"@book{\n title = {Research of TiN coatings by means of gas tunnel type plasma reactive spraying},\n type = {book},\n year = {2005},\n source = {Novel Materials Processing by Advanced Electromagnetic Energy Sources},\n identifiers = {[object Object]},\n pages = {427-432},\n id = {9e534013-b8b4-33ef-8236-e6a6837b5a4b},\n created = {2018-09-25T07:52:35.513Z},\n file_attached = {false},\n profile_id = {1a73be13-27f1-3556-95c5-66a76ed8d326},\n last_modified = {2018-09-25T08:38:34.153Z},\n read = {false},\n starred = {false},\n authored = {true},\n confirmed = {false},\n hidden = {false},\n private_publication = {false},\n abstract = {This chapter discusses the research of titanium nitride (TiN) coating by means of gas tunnel type plasma reactive spraying. The TiN sprayed coating with thickness of 100-200 /m could be obtained in a short time of 10s by means of gas tunnel type plasma reactive spraying. The chapter investigates the properties of TiN sprayed coating, the cross-section of TiN coating observed by an optical microscope and the structure of TiN coating. Vickers hardness of TiN coatings is measured when the spraying distance is l=60 mm and l=70 mm. The relations between the spraying distance 'l' and Vickers Hardness 'Hv' on the cross-section of TiN sprayed coating is also clarified. The adhesive strength of TiN coating is measured and discussed. TiN coatings have a wide range of applications due to the practical properties such as high hardness, good corrosion resistance, heat resistance and excellent wear resistance. It can be deposited by physical vapor deposition (PVD) evaporation, sputtering, ion plating, and chemical vapor deposition (CVD). © 2005 Elsevier Ltd. All rights reserved.},\n bibtype = {book},\n author = {Jiang, W. and Kobayashi, A.}\n}","author_short":["Jiang, W.","Kobayashi, A."],"bibbaseid":"jiang-kobayashi-researchoftincoatingsbymeansofgastunneltypeplasmareactivespraying-2005","role":"author","urls":{},"downloads":0},"search_terms":["research","tin","coatings","means","gas","tunnel","type","plasma","reactive","spraying","jiang","kobayashi"],"keywords":[],"authorIDs":[]}