M. Cłapa scite author profile

This work presents an improvement of the VIPAR ('nd' stands for 'normoxic, double', or VIP) polymer gel dosimeter. The gel composition was altered by increasing the concentration of the monomeric components, N-vinylpyrrolidone (NVP) and N,N'-methylenebisacrylamide (MBA), in co-solvent solutions. The optimal composition (VIPAR, where 'CT' stands for computed tomography, or VIC) comprised: 17% NVP, 8% MBA, 12% t-BuOH, 7.5% gelatine, 0.007% ascorbic acid, 0.0008% CuSO × 5HO and 0.02% hydroquinone. The following characteristics of VIC were achieved: (i) linear dose range of 0.930 Gy, (ii) saturation for radiation doses of over 50 Gy, (iii) threshold dose of about 0.5 Gy, (iv) dose sensitivity of 0.171 Gy s, which is roughly 2.2 times higher than that of VIP (for nuclear magnetic resonance measurements). It was also found that VIC is dose- rate-independent, and its dose response does not alter if the radiation source is changed from electrons to photons for external beam radiotherapy. The gel responded similarly to irradiation with small changes in radiation energy but was sensitive to larger energy changes. The VIC gel retained temporal stability from 20 h until at least 10 d after irradiation, whereas spatial stability was retained from 20 h until at least 6 d after irradiation. The scheme adopted for VIC manufacturing yields repeatable gels in terms of radiation dose response. The VIC was also shown to perform better than VIP using x-ray computed tomography as a readout method; the dose sensitivity of VIC (0.397 HU Gy) was 1.5 times higher than that of VIP. Also, the dose resolution of VIC was better than that of VIP in the whole dose range examined.

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Investigation of anti-corrosion properties of Ti:C gradient layers manufactured in hybrid deposition system

Batory

Błaszczyk

Cłapa

et al. 2008

J Mater Sci

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Influence of the process parameters on the characteristics of silicon-incorporated a-C:H:SiOx coatings

Batory

Jędrzejczak

Kaczorowski

et al. 2015

Surface and Coatings Technology

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Mechanical and tribological properties of gradient a-C:H/Ti coatings

2013

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The unusual combination of high hardness and very low friction coefficient are the most attractive tribological parameters of DLC (diamond-like carbon) layers. However, their usability is strongly restricted by the limited thickness due to high residual stress. The main goal of the presented work was to obtain thick, wear resistant and well adherent DLC layers while keeping their perfect friction parameters. As a proposed solution a Ti-Ti x C y gradient layer was manufactured as the adhesion improving interlayer followed by a thick diamond-like carbon film. This kind of combination seems to be very promising for many applications, where dry friction conditions for highly loaded elements can be observed. Both layers were obtained in one process using a hybrid deposition system combining PVD and CVD techniques in one reaction chamber. The investigation was performed on nitrided samples made from X53CrMnNiN21-9 valve steel. Structural features, surface topography, tribological and mechanical properties of manufactured layers were evaluated. The results of the investigation confirmed that the presented deposition technique makes it possible to manufacture thick and well adherent carbon layers with high hardness and very good tribological parameters. Preliminary investigation results prove the possibility of application of presented technology in automotive industry.

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M. Cłapa

On the development of a VIPAR^ndradiotherapy 3D polymer gel dosimeter

Investigation of anti-corrosion properties of Ti:C gradient layers manufactured in hybrid deposition system

Influence of the process parameters on the characteristics of silicon-incorporated a-C:H:SiOx coatings

Mechanical and tribological properties of gradient a-C:H/Ti coatings

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About

M. Cłapa

On the development of a VIPARndradiotherapy 3D polymer gel dosimeter

Investigation of anti-corrosion properties of Ti:C gradient layers manufactured in hybrid deposition system

Influence of the process parameters on the characteristics of silicon-incorporated a-C:H:SiOx coatings

Mechanical and tribological properties of gradient a-C:H/Ti coatings

Contact Info

Product

Resources

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On the development of a VIPAR^ndradiotherapy 3D polymer gel dosimeter