Journal of Superhard Materials
ISSN 1063-4576 (Print)
ISSN 1934-9408 (Online)
Menu
Archives
Home
About the Journal
Editorial Team
Editorial Policies
Author Guidelines
About the Journal
Issues
Search
Current
Retracted articles
Archives
Contact
All Journals
User
Username
Password
Remember me
Forgot password?
Register
Notifications
View
Subscribe
Search
Search
Search Scope
All
Authors
Title
Abstract
Index terms
Full Text
Browse
By Issue
By Author
By Title
By Sections
Other Journals
Subscription
Login to verify subscription
Keywords
cBN
composite
detonation nanodiamonds
diamond
dressing tool
fracture toughness
grinding
hardness
high pressure
mechanical properties
microhardness
microstructure
nanoindentation
polishing
pressure
sintering
structure
superhard materials
synthesis
turning
wear resistance
×
User
Username
Password
Remember me
Forgot password?
Register
Notifications
View
Subscribe
Search
Search
Search Scope
All
Authors
Title
Abstract
Index terms
Full Text
Browse
By Issue
By Author
By Title
By Sections
Other Journals
Subscription
Login to verify subscription
Keywords
cBN
composite
detonation nanodiamonds
diamond
dressing tool
fracture toughness
grinding
hardness
high pressure
mechanical properties
microhardness
microstructure
nanoindentation
polishing
pressure
sintering
structure
superhard materials
synthesis
turning
wear resistance
Home
>
Search
>
Author Details
Author Details
Pasichnyi, O. O.
Issue
Section
Title
File
Vol 38, No 1 (2016)
Investigation of Machining Processes
Grain shape as a factor governing the parameters of diamond electroplated coating of dressing tools. Part 2. Actual grain–graphite form contact area and related characteristics as input data for calculating the conditions of diamond electroplated coating application by electroforming method
Vol 40, No 4 (2018)
Investigation of Machining Processes
A Study of the Potential of Improving Performance of AS20 Diamond Powders Through Altering Their Dimensional and Physico-Chemical Characteristics
Vol 41, No 4 (2019)
Letters to the Editor
The Influence of Circumferential Waviness of the Diamond Wheel Working Surface on the Machined Surface Roughness
TOP
