The collection presents scientific and practical results and outlines the development prospects of work in the field of design, manufacture, and application of rock-cutting tools, metal- and stone-working tools, new materials for their production, drilling technologies, and well control methods, as well as tools for shearers and roadheaders.

Current issues in the theory and practice of obtaining monocrystalline, dispersed, ceramic, and composite superhard materials (SHM) over a wide range of temperatures and pressures are considered. Topics related to the advancement of nanotechnologies, nanomaterials, and nanostructured systems are also discussed. Achievements and pathways for the development of the scientific foundations for creating innovative technologies for processing metals and non-metals using tools made of superhard materials, including rock-cutting tools, as well as methods and technologies for the application of SHM in key industrial sectors, are presented.

Furthermore, the current state of the art in the production of hard metals (cemented carbides), hard metal tools for processing metals and alloys, and modern ceramic materials for the tool industry is examined, along with their properties and effective areas of application.

The collection is intended for specialists working in the field of the development, production, and application of rock-cutting, metal- and stone-working tools, SHM, and hard metals, as well as for educators, postgraduate students, and students of higher education institutions.

The collection presents scientific and practical results and prospects for the development of work in the fields of design, manufacturing, and application of rock-breaking, metal cutting, and stone cutting tools, as well as new materials for their production, well-drilling technology, and methods of monitoring.
The article discusses topical issues related to the theory and practice of producing single-crystal, dispersed, ceramic, and composite superhard materials over a wide range of temperatures and pressures. It also addresses the development of nanotechnology, nanomaterials, and nanostructured systems. The article highlights the achievements and future directions of scientific research into creating the latest technologies for metal and nonmetal processing using CMM tools, including rock breaking tools, and the use of CMM methods and techniques in various industries.
The current state-of-the-art and technology of hard alloy production, carbide tool manufacturing for metal machining, modern ceramic materials in the tool industry, their properties and effective applications, are also discussed.
This collection is intended for professionals working in the development, production, and application of rock-breaking, metal-cutting, and stone-carving tools, as well as NTMs and hard alloys. It is also suitable for teachers, graduate students, and students in higher education institutions.

Tooling materials science: Collection of scientific papers. - Issue 25. - Kyiv:
V. M. Bakul Institute of Materials Science of the National Academy of Sciences of Ukraine, 2022. 364 p.
ISSN 2708-731X
DOI: https://doi.org/10.33839/2708-731X-2022-25-1
http:/altis-ism.org.ua
The collection presents scientific and practical results and prospects for the development of work in the field of design, manufacture, application of drilling rock-destroying, metal and stone tools, new materials for their manufacture, well drilling technology and methods of their control, tools for cleaning and tunneling machines.
The article deals with topical issues of the theory and practice of obtaining single crystal, dispersed, ceramic and composite superhard materials (SHM) in a wide range of temperatures and pressures; issues of development of nanotechnologies, nanomaterials and nanostructured systems. The achievements and ways of development of scientific bases of creation of the newest technologies of metal and non-metal processing with tools from SHM, including rock-destroying tools, methods and technologies of SHM application in basic industries are shown.
The current state of the art and technology of hard alloys production, carbide tools for processing metals and alloys, modern ceramic materials for the tool industry, their properties, and effective applications are also considered.
The collection is intended for specialists working in the field of development, production and application of rock-destroying, metal and stone-cutting tools, SHM and hard alloys, as well as for teachers, postgraduate students and students of higher educational institutions.

Instrumental materials science (until 2020 – Rock Destruction and Metal-Working Tools – Techniques and Technology of the Tool Production and Applications) is a collection of scientific papers with open access. The collection publishes scientific and practical results in the field of development, manufacturing, use of drilling rock destruction, metal and stone processing tools, new materials for their manufacture, technology of drilling wells and methods for their control, tools for shafts and tunneling machines. Topical issues of the theory and practice of obtaining single-crystal, dispersed, ceramic and composite superhard materials (SHM) in a wide range of temperatures and pressures are considered; the development of nanotechnology, nanomaterials and nanostructured systems. Highlights achievements and ways of development of scientific foundations for the creation of new technologies for processing metals and non-metals with a tool from an STM, including rock-cutting tools, methods and technologies for using STM in basic industries.

The collection also focuses on the current state of technology and technology for the production of hard alloys, carbide tools for processing metals and alloys, modern ceramic materials for the tool industry, their properties, and effective applications.

The collection is intended for professionals working in the field of creation, production and use of rock-cutting, metal-and stone-working tools, STM and hard alloys, as well as teachers, graduate students and students of higher educational institutions.

Інструментальне матеріалознавство ( до 2020 р. - Породоруйнівний та металооброблювальний інструмент - техніка і технологія його виготовлення та застосування) - це збірка наукових праць із відкритим доступом, в якій публікуються оригінальні та оглядові роботи з актуальних питань теорії і практики отримання монокристалічних, дисперсних, керамічних і композиційних НТМ в широкому діапазоні температур і тисків; питання розвитку нанотехнологій, наноматеріалів та наноструктурних систем; роботи в області розробки, виготовлення, застосування бурового породоруйнівного, метало- та каменеобробного інструменту; технології буріння свердловин і методів їх контролю; техніки і технології виробництва твердих сплавів, твердосплавного інструменту різного функціонального призначення. Ми публікуємо оригінальні дослідження та огляди, які стосуються всіх зазначених вище наукових та технологічних аспектів. науковці та спеціалісти в галузі надтвердих матеріалів (НТМ), фахівці, що працюють в області створення, виробництва і застосування породоруйнівного, метало- та каменеобробного інструменту з НТМ і твердих сплавів, а також викладачі, аспіранти та студенти вищих навчальних закладів.

Collection of scientific papers "Rock Destruction and Metal-Working Tools – Techniques and Technology of the Tool Production and Applications", published in 2019

Collection of scientific papers "Rock Destruction and Metal-Working Tools – Techniques and Technology of the Tool Production and Applications", published in 2018