Daniel Wałach scite author profile

Daniel Wałach

5Publications

80Citation Statements Received

51Citation Statements Given

How they've been cited

131

How they cite others

Affiliations

AGH University of Krakow, KOMAG Institute of Mining Technology

Publications

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The Effect of the Morphology of Coarse Aggregate on the Properties of Self-Compacting High-Performance Fibre-Reinforced Concrete

et al. 2018

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When understanding the effect of the morphology of coarse aggregate on the properties of a fresh concrete mixture, the strength and deformability of self-compacting high-performance fibre-reinforced concrete (SCHPFRC) can be seen to be critical for its performance. In this research, regular and irregular grains were separated from granite coarse aggregate. The morphology of these grains was described while using digital image analysis. As a result, the aspect ratio, roundness and area ratio were determined in order to better understand this phenomenon. Then, the principal rheological, physical, and mechanical properties of SCHPFRC were determined. The obtained results indicated that the morphology of the grains of coarse aggregate has an impact on the strength and stiffness properties of SCHPFRC. Moreover, significant differences in the transverse strain of concretes were observed. The morphology of the coarse aggregate also has an impact on the rheological parameters of a fresh concrete mixture. To better understand this phenomenon, the hypothesized mechanism of the formation of SCHPFRC caused by different morphology of coarse aggregate was proposed at the end of the article.

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Analysis of Factors Affecting the Environmental Impact of Concrete Structures

Wałach

2020

Sustainability

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Concrete is the one of the most important construction materials not only in terms of its global consumption but also environmental impact. However, there are many possibilities to reduce the environmental impact of concrete structures. This paper presents a set of factors determining the environmental impact of subsequent stages in the life cycles of concrete objects. In the research, the method of deduction and mathematical logic was applied to identify the parameters. Using the DEMATEL method, the significance of the identified factors was determined. An influential relation map allowed to specify a set of important parameters (causes) that affect the impact of the structure on the environment. The most important causes include: Concrete class, structural loads, static of the structure, materials used, and their suppliers as well as the volume of structural elements. The results of the analysis both confirmed the previous findings, as well as shows a set of indicators not previously highlighted. The cause-and-effect relationships between the parameters, and its significance was also determined. The results enable to indicate further directions of reducing the environmental impact of the concrete structure.

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Impact of the Direction of Non-destructive Test with Respect to the Annual Growth Rings of Pine Wood

Jaskowska-Lemańska

Wałach

2016

Procedia Engineering

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Identification of Microstructural Properties of Shale by Combined Use of X-Ray Micro-CT and Nanoindentation Tests

Cała

Cyran

Kawa

et al. 2017

Procedia Engineering

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Evaluation of the Development of Bond Strength between Two Concrete Layers

Dybeł

Wałach

2017

IOP Conf. Ser.: Mater. Sci. Eng.

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Daniel Wałach

The Effect of the Morphology of Coarse Aggregate on the Properties of Self-Compacting High-Performance Fibre-Reinforced Concrete

Analysis of Factors Affecting the Environmental Impact of Concrete Structures

Impact of the Direction of Non-destructive Test with Respect to the Annual Growth Rings of Pine Wood

Identification of Microstructural Properties of Shale by Combined Use of X-Ray Micro-CT and Nanoindentation Tests

Evaluation of the Development of Bond Strength between Two Concrete Layers

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