0
Your cart

Your cart is empty

Browse All Departments
  • All Departments
Price
  • R1,000 - R2,500 (5)
  • R5,000 - R10,000 (5)
  • -
Status
Brand

Showing 1 - 10 of 10 matches in All Departments

Structure and Properties of Intermetallics in Pre-Transitional Low-Stability States (Paperback): A. I. Potekaev, A. M. Glezer,... Structure and Properties of Intermetallics in Pre-Transitional Low-Stability States (Paperback)
A. I. Potekaev, A. M. Glezer, V.V. Kulagin, M.D Starostenkov, A.A. Klopot
R2,158 Discovery Miles 21 580 Ships in 12 - 17 working days

This book is dedicated to the fundamental physical aspects of stability, the influence of structural defects on the properties and structural phase transformations of BCC alloys. The authors present patterns that occur in the structural-phase states of functional alloys with low stability or instability under thermal cycling effects. Structural-phase transformations and the physical laws governing the influence of the thermomechanical effect on the properties of alloys are examined to advance development of technological processes for processing functional materials. Features: Studies the correlation between structural phase states and changes in the physico-mechanical properties of intermetallic compounds Explores the influence of thermomechanical cycling on the properties of functional alloys Details low-stability pretransition states in alloys

Structure and Properties of Intermetallics in Pre-Transitional Low-Stability States (Hardcover): A. I. Potekaev, A. M. Glezer,... Structure and Properties of Intermetallics in Pre-Transitional Low-Stability States (Hardcover)
A. I. Potekaev, A. M. Glezer, V.V. Kulagin, M.D Starostenkov, A.A. Klopot
R5,415 Discovery Miles 54 150 Ships in 12 - 17 working days

This book is dedicated to the fundamental physical aspects of stability, the influence of structural defects on the properties and structural phase transformations of BCC alloys. The authors present patterns that occur in the structural-phase states of functional alloys with low stability or instability under thermal cycling effects. Structural-phase transformations and the physical laws governing the influence of the thermomechanical effect on the properties of alloys are examined to advance development of technological processes for processing functional materials. Features: Studies the correlation between structural phase states and changes in the physico-mechanical properties of intermetallic compounds Explores the influence of thermomechanical cycling on the properties of functional alloys Details low-stability pretransition states in alloys

Thermal and Time Stability of Amorphous Alloys (Paperback): A. M. Glezer, A. I. Potekaev, A. O. Cheretaeva Thermal and Time Stability of Amorphous Alloys (Paperback)
A. M. Glezer, A. I. Potekaev, A. O. Cheretaeva
R1,407 Discovery Miles 14 070 Ships in 12 - 17 working days

This reference is dedicated to the problem of time-temperature stability of amorphous (non-crystalline) metal alloys with strongly nonequilibrium structure and unique physical and mechanical properties that are obtained by quenching from the melt at a rate that exceeds one millions of degrees c.o.s. second. As a stability test, the behavior of the plasticity of amorphous alloys is studied. The book examines the fundamental characteristics of amorphous alloys, the basic laws of structural relaxation, generalized information about the phenomenon of the ductile-brittle transition (temper embrittlement), the development of physically justified methods of predicting the stability of the properties, and provides information about the attempts of controlling the structure for the purpose of suppressing or deceleration of the ductile-brittle transition and, as a consequence, increasing the temperature and temporal stability of the amorphous state.

Amorphous-Nanocrystalline Alloys (Paperback): A. M. Glezer, N. A. Shurygina Amorphous-Nanocrystalline Alloys (Paperback)
A. M. Glezer, N. A. Shurygina
R1,448 Discovery Miles 14 480 Ships in 12 - 17 working days

Amorphous-nanocrystalline alloys are a relatively new class of materials born from the rapid development of new technologies and different methods of producing amorphous and nanocrystalline powders and films, compacting, melt quenching, megaplastic deformation, implantation, laser, plasma, and other high-energy methods. This book considers methods of producing these materials (melt quenching, controlled crystallization, deformation effect, and pulse treatments (photon, laser and ultrasound), spraying thin films, and ion implantation). Theoretical and experimental studies describe plastic deformation mechanisms and physico-mechanical properties. Practical applications are also presented.

Plastic Deformation of Nanostructured Materials (Paperback): N. A. Popova, I. A. Kurzina, A. M. Glezer, E.V. Kozlov, N.A. Koneva Plastic Deformation of Nanostructured Materials (Paperback)
N. A. Popova, I. A. Kurzina, A. M. Glezer, E.V. Kozlov, N.A. Koneva
R1,429 Discovery Miles 14 290 Ships in 12 - 17 working days

Plastic Deformation of Nanostructured Materials offers comprehensive analysis on the most important data and results in the field of materials strength and mechanics. This reference systematically examines the special features of the mechanical behavior and corresponding structural mechanisms of crystal structure defects with grain sizes that range from meso- to micro- levels.

Melt-Quenched Nanocrystals (Paperback): A. M. Glezer, I. E. Permyakova Melt-Quenched Nanocrystals (Paperback)
A. M. Glezer, I. E. Permyakova
R1,895 Discovery Miles 18 950 Ships in 12 - 17 working days

Melt quenching-the method of quenching from the liquid state-provides new opportunities for producing advanced materials with a unique combination of properties. In the process of melt quenching, attainment of critical cooling rates can produce specific structural states of the material. Nanocrystalline materials produced by melt quenching are classified as nanomaterials not only by their nanoscale structural elements but also by the effects these elements have on the properties of the material. The result of 30 years of research, Melt-Quenched Nanocrystals presents a detailed and systematic analysis of the nanostructured state formed in the process of melt quenching and subsequent thermal and deformation effects. It covers the metallurgical and mechanical properties of nanomaterials, focusing particularly on properties derived from nanocrystals and their agglomeration. The text introduces four different types of nanocrystals that can be produced by melt quenching, each having different structures and properties: Type I nanocrystals formed when crystallization takes place completely during melt quenching Type II nanocrystals formed when melt quenching is accompanied by amorphous state formation along with partial or complete crystallization Type III nanocrystals formed when melt quenching results in the formation of the amorphous state, and nanocrystals can be produced as a result of the subsequent thermal effect Type IV nanocrystals formed when melt quenching leads to the formation of the amorphous state, and nanocrystals can be produced as a result of the subsequent deformation effect The possible uses for these materials are extensive, with applications from coatings to biological compatibility. The final section of the book presents a discussion of existing and future applications of nanocrystals produced by different melt-quenc

Amorphous-Nanocrystalline Alloys (Hardcover): A. M. Glezer, N. A. Shurygina Amorphous-Nanocrystalline Alloys (Hardcover)
A. M. Glezer, N. A. Shurygina
R5,722 Discovery Miles 57 220 Ships in 12 - 17 working days

Amorphous-nanocrystalline alloys are a relatively new class of materials born from the rapid development of new technologies and different methods of producing amorphous and nanocrystalline powders and films, compacting, melt quenching, megaplastic deformation, implantation, laser, plasma, and other high-energy methods. This book considers methods of producing these materials (melt quenching, controlled crystallization, deformation effect, and pulse treatments (photon, laser and ultrasound), spraying thin films, and ion implantation). Theoretical and experimental studies describe plastic deformation mechanisms and physico-mechanical properties. Practical applications are also presented.

Plastic Deformation of Nanostructured Materials (Hardcover): N. A. Popova, I. A. Kurzina, A. M. Glezer, E.V. Kozlov, N.A. Koneva Plastic Deformation of Nanostructured Materials (Hardcover)
N. A. Popova, I. A. Kurzina, A. M. Glezer, E.V. Kozlov, N.A. Koneva
R5,708 Discovery Miles 57 080 Ships in 12 - 17 working days

Plastic Deformation of Nanostructured Materials offers comprehensive analysis on the most important data and results in the field of materials strength and mechanics. This reference systematically examines the special features of the mechanical behavior and corresponding structural mechanisms of crystal structure defects with grain sizes that range from meso- to micro- levels.

Thermal and Time Stability of Amorphous Alloys (Hardcover): A. M. Glezer, A. I. Potekaev, A. O. Cheretaeva Thermal and Time Stability of Amorphous Alloys (Hardcover)
A. M. Glezer, A. I. Potekaev, A. O. Cheretaeva
R5,695 Discovery Miles 56 950 Ships in 12 - 17 working days

This reference is dedicated to the problem of time-temperature stability of amorphous (non-crystalline) metal alloys with strongly nonequilibrium structure and unique physical and mechanical properties that are obtained by quenching from the melt at a rate that exceeds one millions of degrees c.o.s. second. As a stability test, the behavior of the plasticity of amorphous alloys is studied. The book examines the fundamental characteristics of amorphous alloys, the basic laws of structural relaxation, generalized information about the phenomenon of the ductile-brittle transition (temper embrittlement), the development of physically justified methods of predicting the stability of the properties, and provides information about the attempts of controlling the structure for the purpose of suppressing or deceleration of the ductile-brittle transition and, as a consequence, increasing the temperature and temporal stability of the amorphous state.

Melt-Quenched Nanocrystals (Hardcover, New): A. M. Glezer, I. E. Permyakova Melt-Quenched Nanocrystals (Hardcover, New)
A. M. Glezer, I. E. Permyakova
R5,117 Discovery Miles 51 170 Ships in 12 - 17 working days

Melt quenching-the method of quenching from the liquid state-provides new opportunities for producing advanced materials with a unique combination of properties. In the process of melt quenching, attainment of critical cooling rates can produce specific structural states of the material. Nanocrystalline materials produced by melt quenching are classified as nanomaterials not only by their nanoscale structural elements but also by the effects these elements have on the properties of the material. The result of 30 years of research, Melt-Quenched Nanocrystals presents a detailed and systematic analysis of the nanostructured state formed in the process of melt quenching and subsequent thermal and deformation effects. It covers the metallurgical and mechanical properties of nanomaterials, focusing particularly on properties derived from nanocrystals and their agglomeration. The text introduces four different types of nanocrystals that can be produced by melt quenching, each having different structures and properties: Type I nanocrystals formed when crystallization takes place completely during melt quenching Type II nanocrystals formed when melt quenching is accompanied by amorphous state formation along with partial or complete crystallization Type III nanocrystals formed when melt quenching results in the formation of the amorphous state, and nanocrystals can be produced as a result of the subsequent thermal effect Type IV nanocrystals formed when melt quenching leads to the formation of the amorphous state, and nanocrystals can be produced as a result of the subsequent deformation effect The possible uses for these materials are extensive, with applications from coatings to biological compatibility. The final section of the book presents a discussion of existing and future applications of nanocrystals produced by different melt-quenc

Free Delivery
Pinterest Twitter Facebook Google+
You may like...
Rogz Lounge Walled Oval Pet Bed (Navy…
R625 Discovery Miles 6 250
Casio LW-200-7AV Watch with 10-Year…
R999 R884 Discovery Miles 8 840
Alcolin Wallpaper Paste (200ml)
R84 Discovery Miles 840
Ravensburger Marvel Jigsaw Puzzles…
R299 R250 Discovery Miles 2 500
Cadac 47cm Paella Pan
R1,215 Discovery Miles 12 150
Bostik Double-Sided Tape (18mm x 10m…
 (1)
R31 Discovery Miles 310
Bostik Crystal Clear Tape
R43 Discovery Miles 430
Colleen Pencil Crayons - Assorted…
 (1)
R201 Discovery Miles 2 010
Rogz Indoor 3D Pod Dog Bed (Petrol/Grey…
R1,775 Discovery Miles 17 750
Microsoft Xbox Series X Console (1TB…
R14,999 Discovery Miles 149 990

 

Partners