Wyniki wyszukiwania - BazTech

Ograniczanie wyników

2 2016

Znaleziono wyników: 2

Liczba wyników na stronie

Wyniki wyszukiwania

Sortuj według:

Ogranicz wyniki do:

Mechanical properties of pressure sintered alumina-graphene composites

Rutkowski P., Klimczyk P., Jaworska L., Stobierski L., Zientara D., Tran K.

Materiały Ceramiczne

2016

T. 68, nr 2

168--175

The work concerns the alumina-graphene materials sintered by two different pressure methods. The preparation route of the matrix-graphene mixture was discussed in the paper. The prepared compositions with different amount of graphene were hot-pressed or spark plasma sintered. The influence on uniaxial pressure during the sintering process on the microstructure was studied by the SEM microstructural observations and ultrasonic measurements. The work presents also the results of measurements of elastic and mechanical properties. Wear tests were made and friction coefficients determined by the ball-on-disk method.

Praca dotyczy materiałów korund-grafen spiekanych za pomocą dwóch metod ciśnieniowych. Dyskusji poddano metodę przygotowania mieszaniny złożonej z proszku osnowy i grafenu. Mieszaniny o różnej zawartości grafenu prasowano na gorąco lub konsolidowano w warunkach spiekania wspomaganego polem elektrycznym. Wpływ jednoosiowego prasowania podczas spiekania na mikrostrukturę zbadano, stosując obserwacje mikrosrukturalne SEM i pomiary ultradźwiękowe. Praca zawiera również wyniki pomiarów właściwości sprężystych i mechanicznych. Test odporności na zużycie i pomiary współczynników tarcia wykonano za pomocą metody kula na dysku.

The influence of different types of carbon nanomaterial on the properties of coatings obtained by EPD process

Wedel-Grzenda A., Tran K., Frączek-Szczypta A.

Engineering of Biomaterials

2016

Vol. 19, no. 135

13--20

The first part of research is concentrated on the examination of four kinds of carbon nanomaterials: graphene oxide (GO), multi-walled carbon nanotubes (MWCNT), multi-walled carbon nanotubes functionalized by authors in acids mixture (MWCNT-F) and multi-walled carbon nanotubes with hydroxyl groups (MWCNT-OH). Their microstructure was observed in transmission electron microscopy (TEM). Based on these microphotographs, the diameters of carbon nanotubes were measured. Then, in order to determine the chemical composition of GO, MWCNT-F and MWCNT-OH, X-ray photoelectron spectroscopy was applied. The second part of study concerns the properties of the coatings deposited electrophoretically on titanium surface from previously examined nanomaterials. The coatings from individual nanomaterials, as well as hybrid layers (combination of two kinds of nanomaterial: graphene oxide with one of the nanotubes’ type) were deposited. Microstructure of the coatings was evaluated with the use of scanning electron microscopy (SEM). Furthermore, surface properties, important while considering usage of these materials in biological applications: wettability and surface free energy were evaluated. These materials are meant for application in regeneration and stimulation of nerve cells. All the research carried out so far indicate the influence of nanotubes’ functionalization degree on the properties of their suspension, as well as the characteristics of the deposited coating. It also influences the interaction between two types of nanomaterials. Functionalization in strong acids introduces functional groups which change nanotubes’ dimensions, properties and behavior in solution.