Zeitschriften und Ausgaben

Volumen 22 (2022): Heft 3 (September 2022)

Volumen 22 (2022): Heft 2 (June 2022)

Volumen 22 (2022): Heft 1 (March 2022)

Volumen 21 (2021): Heft 4 (December 2021)

Volumen 21 (2021): Heft 3 (September 2021)

Volumen 21 (2021): Heft 2 (June 2021)

Volumen 21 (2021): Heft 1 (March 2021)

Volumen 20 (2020): Heft 4 (December 2020)

Volumen 20 (2020): Heft 3 (September 2020)

Volumen 20 (2020): Heft 2 (June 2020)

Volumen 20 (2020): Heft 1 (March 2020)

Volumen 19 (2019): Heft 4 (December 2019)

Volumen 19 (2019): Heft 3 (September 2019)

Volumen 19 (2019): Heft 2 (June 2019)

Volumen 19 (2019): Heft 1 (March 2019)

Volumen 18 (2018): Heft 4 (December 2018)

Volumen 18 (2018): Heft 3 (September 2018)

Volumen 18 (2018): Heft 2 (June 2018)

Volumen 18 (2018): Heft 1 (March 2018)

Volumen 17 (2017): Heft 4 (December 2017)

Volumen 17 (2017): Heft 3 (September 2017)

Volumen 17 (2017): Heft 2 (June 2017)

Volumen 17 (2017): Heft 1 (March 2017)

Volumen 16 (2016): Heft 4 (December 2016)

Volumen 16 (2016): Heft 3 (September 2016)

Volumen 16 (2016): Heft 2 (June 2016)

Volumen 16 (2016): Heft 1 (March 2016)

Volumen 15 (2015): Heft 4 (December 2015)

Volumen 15 (2015): Heft 3 (September 2015)

Volumen 15 (2015): Heft 2 (June 2015)

Volumen 15 (2015): Heft 1 (March 2015)

Volumen 14 (2014): Heft 4 (December 2014)

Volumen 14 (2014): Heft 3 (September 2014)

Volumen 14 (2014): Heft 2 (June 2014)

Volumen 14 (2014): Heft 1 (March 2014)

Volumen 13 (2013): Heft 4 (December 2013)

Volumen 13 (2013): Heft 3 (September 2013)

Volumen 13 (2013): Heft 2 (June 2013)

Volumen 13 (2013): Heft 1 (March 2013)

Volumen 12 (2012): Heft 4 (December 2012)

Volumen 12 (2012): Heft 3 (October 2012)

Volumen 12 (2012): Heft 2 (June 2012)

Volumen 12 (2012): Heft 1 (March 2012)

Volumen 11 (2011): Heft 4 (December 2011)

Volumen 11 (2011): Heft 3 (September 2011)

Volumen 11 (2011): Heft 2 (June 2011)

Volumen 11 (2011): Heft 1 (March 2011)

Volumen 10 (2010): Heft 4 (December 2010)

Volumen 10 (2010): Heft 3 (September 2010)

Volumen 10 (2010): Heft 2 (June 2010)

Volumen 10 (2010): Heft 1 (March 2010)

Volumen 9 (2009): Heft 4 (December 2009)

Volumen 9 (2009): Heft 3 (September 2009)

Volumen 9 (2009): Heft 2 (June 2009)

Volumen 9 (2009): Heft 1 (March 2009)

Volumen 8 (2008): Heft 4 (December 2008)

Volumen 8 (2008): Heft 3 (September 2008)

Volumen 8 (2008): Heft 2 (June 2008)

Volumen 8 (2008): Heft 1 (March 2008)

Zeitschriftendaten
Format
Zeitschrift
eISSN
2083-4799
Erstveröffentlichung
23 Sep 2008
Erscheinungsweise
4 Hefte pro Jahr
Sprachen
Englisch

Suche

Volumen 19 (2019): Heft 4 (December 2019)

Zeitschriftendaten
Format
Zeitschrift
eISSN
2083-4799
Erstveröffentlichung
23 Sep 2008
Erscheinungsweise
4 Hefte pro Jahr
Sprachen
Englisch

Suche

6 Artikel
Uneingeschränkter Zugang

Atmospheric Plasma Spraying of Al2O3 + 13% TiO2 Coatings Using External and Internal Injection System

Online veröffentlicht: 31 Dec 2019
Seitenbereich: 5 - 17

Zusammenfassung

Abstract

The ceramic coatings based on mixture of Al2O3 and TiO2 have better properties in comparison to the pure alumina ones. Among many techniques, plasma spraying is very useful method of ceramic coatings manufacturing. In this paper, the results of microscopic, mechanical and tribological properties investigations of Al2O3 + 13 wt% TiO2 coatings manufactured by atmospheric plasma spraying are presented. The cylinder substrates made from stainless steel (X5CrNi18-10) had a diameter equal to 25 mm and thickness equal to 2 mm. The plasma spray experimental parameters included three variables: (i) type of injection system (external or internal), (ii) size of corundum particles for sandblasting and (iii) torch linear speed. The results confirm, that type of injection system is a dominant parameter. Internal injection results in better degree of particles melting, what influences on wear resistance performance, as well as higher values of bond strength.

Schlüsselwörter

  • atmospheric plasma spraying
  • AlO + TiO coating
  • microstructure
  • mechanical properties
  • injection system
Uneingeschränkter Zugang

Cavitation Erosion Resistance Influence of Material Properties

Online veröffentlicht: 31 Dec 2019
Seitenbereich: 18 - 34

Zusammenfassung

Abstract

The cavitation erosion is the phenomena that causes degradation of fluid flow machinery components due to repetitive implosion of cavitation bubbles adjacent to the solid surface. Cavitation erosion is a complex phenomenon, which includes not only hydrodynamic factors of liquid, but also properties of erodible material e.g. microstructure, hardness or Young modulus. In order to reduce the negative impact of erosion on machine components, there are many methods to increase cavitation erosion resistance. The paper discusses the correlations between structural and mechanical properties and the resistance to cavitation erosion (CER) of pure materials, their alloys and coatings. Methods to increase CER have also been described - using heat / thermo-chemical treatment and application of coatings by various methods.

Schlüsselwörter

  • cavitation erosion
  • erosion
  • resistance
  • material properties
Uneingeschränkter Zugang

Effect of Slide Burnishing on the Surface Layer and Fatigue Life of Titanium Alloy Parts

Online veröffentlicht: 31 Dec 2019
Seitenbereich: 35 - 45

Zusammenfassung

Abstract

The paper presents the results of a study investigating the effect of slide burnishing on the surface roughness, surface layer microhardness and fatigue life of Ti6Al2Mo2Cr titanium alloy parts. The burnishing process was performed with the use of a diamond tip tool. Different machining fluids were used as machining media. Prior to burnishing, the samples were subjected to turning. The burnishing process led to reduced surface roughness (average roughness Ra decreased by 3.5 times and roughness Rz decreased by 2.5 times) as well as increased surface layer microhardness (microhardness maximum increase by 12%) and fatigue life of the tested parts. A relationship between the machining medium and the burnishing effects was also observed. The addition of a surface-active polymethyl methacrylate solution to the machining medium led to an increase in the surface layer microhardness and fatigue life of the workpiece.

Schlüsselwörter

  • slide burnishing
  • fatigue life
  • titanium alloy
  • surface layer
Uneingeschränkter Zugang

Effect of Storage Conditions of Rutile Flux Cored Welding Wires on Properties of Welds

Online veröffentlicht: 31 Dec 2019
Seitenbereich: 46 - 56

Zusammenfassung

Abstract

The influence of storage locations of two grades of rutile flux cored welding wires on their surface condition and the strength of the welds made with them were studied. Wires were stored in real urban conditions (Gdańsk and Katowice) for 1 month, simultaneously recording changes in conditions: temperature and relative humidity of the environment. Visual tests of wires in the delivered and stored condition as well as visual and tensile strength tests of welds made with them were carried out. It was found that the surface of the wires underwent more intense degradation (atmospheric corrosion) during storage in Katowice than in Gdańsk. Significant difference in tensile strength was observed only for padding welds made using Gdańsk stored wires. The lowest recorded tensile strength value was not lower than the standard requirements for the wires.

Schlüsselwörter

  • welding
  • FCAW
  • storage conditions
  • tensile strength
  • atmospheric corrosion
Uneingeschränkter Zugang

Application of the 3D Digital Image Correlation to the Analysis of Deformation of Joints Welded With the FSW Method After Shot Peening

Online veröffentlicht: 31 Dec 2019
Seitenbereich: 57 - 66

Zusammenfassung

Abstract

The three dimensional Digital Image Correlation (3D DIC) method is used for measurements of deformations and displacement in plane elements exposed to loading. The paper presents the experimental tests of an application of the ARAMIS system to the analysis of deformation of joints welded with the FSW method after shot peening treatment. The butt joints were made of 2024-T3 aluminum alloy sheets with the thickness of 1 mm, which next were peened with glass beads about granulation in range 500 ÷ 900 µm. Tests of residual stresses by X-ray diffraction were also carried out. The aim of the study was to analyze the impact of shot peening on the value of stresses and the location of deformations in butt joints.

Schlüsselwörter

  • FSW method
  • shot peening
  • 2024-T3 aluminum alloy
Uneingeschränkter Zugang

Advances in Carbon Fiber Reinforced Polyamide-Based Composite Materials

Online veröffentlicht: 31 Dec 2019
Seitenbereich: 67 - 82

Zusammenfassung

Abstract

Carbon fiber has been used to reinforce both aliphatic and aromatic polyamides. Aliphatic polyamide is known as nylon and aromatic polyamide is often referred to as aramid. Among aliphatic polyamides, polyamide 6, polyamide 6,6, polyamide 11, polyamide 12, and polyamide 1010 have been used as matrices for carbon fiber. Factors affecting the properties of polyamide/carbon fiber composites are: fiber amount, fiber length, fiber orientation, matrix viscosity, matrix-fiber interactions, matrix-fiber adhesion, and conditions encountered during manufacturing processes. This article presents a state-of-the-art review on polyamide/carbon fiber composites. Polyamide/carbon fiber composites are lightweight and exhibit high strength, modulus, fatigue resistance, wear resistance, corrosion resistance, gear, electrical conductivity, thermal conductivity, chemical inertness, and thermal stability. Incorporation of oxidized or modified carbon fiber and nanoparticle modified carbon fiber into polyamide matrices have been found to further enhance their physical properties. Applications of polyamide/carbon fiber composites in aerospace, automobile, construction, and other industries have been stated in this review. To fully exploit potential of polyamide/carbon fiber composites, concentrated future attempts are needed in this field.

Schlüsselwörter

  • Polyamide
  • carbon fiber
  • reinforcement
  • composite
  • strength
6 Artikel
Uneingeschränkter Zugang

Atmospheric Plasma Spraying of Al2O3 + 13% TiO2 Coatings Using External and Internal Injection System

Online veröffentlicht: 31 Dec 2019
Seitenbereich: 5 - 17

Zusammenfassung

Abstract

The ceramic coatings based on mixture of Al2O3 and TiO2 have better properties in comparison to the pure alumina ones. Among many techniques, plasma spraying is very useful method of ceramic coatings manufacturing. In this paper, the results of microscopic, mechanical and tribological properties investigations of Al2O3 + 13 wt% TiO2 coatings manufactured by atmospheric plasma spraying are presented. The cylinder substrates made from stainless steel (X5CrNi18-10) had a diameter equal to 25 mm and thickness equal to 2 mm. The plasma spray experimental parameters included three variables: (i) type of injection system (external or internal), (ii) size of corundum particles for sandblasting and (iii) torch linear speed. The results confirm, that type of injection system is a dominant parameter. Internal injection results in better degree of particles melting, what influences on wear resistance performance, as well as higher values of bond strength.

Schlüsselwörter

  • atmospheric plasma spraying
  • AlO + TiO coating
  • microstructure
  • mechanical properties
  • injection system
Uneingeschränkter Zugang

Cavitation Erosion Resistance Influence of Material Properties

Online veröffentlicht: 31 Dec 2019
Seitenbereich: 18 - 34

Zusammenfassung

Abstract

The cavitation erosion is the phenomena that causes degradation of fluid flow machinery components due to repetitive implosion of cavitation bubbles adjacent to the solid surface. Cavitation erosion is a complex phenomenon, which includes not only hydrodynamic factors of liquid, but also properties of erodible material e.g. microstructure, hardness or Young modulus. In order to reduce the negative impact of erosion on machine components, there are many methods to increase cavitation erosion resistance. The paper discusses the correlations between structural and mechanical properties and the resistance to cavitation erosion (CER) of pure materials, their alloys and coatings. Methods to increase CER have also been described - using heat / thermo-chemical treatment and application of coatings by various methods.

Schlüsselwörter

  • cavitation erosion
  • erosion
  • resistance
  • material properties
Uneingeschränkter Zugang

Effect of Slide Burnishing on the Surface Layer and Fatigue Life of Titanium Alloy Parts

Online veröffentlicht: 31 Dec 2019
Seitenbereich: 35 - 45

Zusammenfassung

Abstract

The paper presents the results of a study investigating the effect of slide burnishing on the surface roughness, surface layer microhardness and fatigue life of Ti6Al2Mo2Cr titanium alloy parts. The burnishing process was performed with the use of a diamond tip tool. Different machining fluids were used as machining media. Prior to burnishing, the samples were subjected to turning. The burnishing process led to reduced surface roughness (average roughness Ra decreased by 3.5 times and roughness Rz decreased by 2.5 times) as well as increased surface layer microhardness (microhardness maximum increase by 12%) and fatigue life of the tested parts. A relationship between the machining medium and the burnishing effects was also observed. The addition of a surface-active polymethyl methacrylate solution to the machining medium led to an increase in the surface layer microhardness and fatigue life of the workpiece.

Schlüsselwörter

  • slide burnishing
  • fatigue life
  • titanium alloy
  • surface layer
Uneingeschränkter Zugang

Effect of Storage Conditions of Rutile Flux Cored Welding Wires on Properties of Welds

Online veröffentlicht: 31 Dec 2019
Seitenbereich: 46 - 56

Zusammenfassung

Abstract

The influence of storage locations of two grades of rutile flux cored welding wires on their surface condition and the strength of the welds made with them were studied. Wires were stored in real urban conditions (Gdańsk and Katowice) for 1 month, simultaneously recording changes in conditions: temperature and relative humidity of the environment. Visual tests of wires in the delivered and stored condition as well as visual and tensile strength tests of welds made with them were carried out. It was found that the surface of the wires underwent more intense degradation (atmospheric corrosion) during storage in Katowice than in Gdańsk. Significant difference in tensile strength was observed only for padding welds made using Gdańsk stored wires. The lowest recorded tensile strength value was not lower than the standard requirements for the wires.

Schlüsselwörter

  • welding
  • FCAW
  • storage conditions
  • tensile strength
  • atmospheric corrosion
Uneingeschränkter Zugang

Application of the 3D Digital Image Correlation to the Analysis of Deformation of Joints Welded With the FSW Method After Shot Peening

Online veröffentlicht: 31 Dec 2019
Seitenbereich: 57 - 66

Zusammenfassung

Abstract

The three dimensional Digital Image Correlation (3D DIC) method is used for measurements of deformations and displacement in plane elements exposed to loading. The paper presents the experimental tests of an application of the ARAMIS system to the analysis of deformation of joints welded with the FSW method after shot peening treatment. The butt joints were made of 2024-T3 aluminum alloy sheets with the thickness of 1 mm, which next were peened with glass beads about granulation in range 500 ÷ 900 µm. Tests of residual stresses by X-ray diffraction were also carried out. The aim of the study was to analyze the impact of shot peening on the value of stresses and the location of deformations in butt joints.

Schlüsselwörter

  • FSW method
  • shot peening
  • 2024-T3 aluminum alloy
Uneingeschränkter Zugang

Advances in Carbon Fiber Reinforced Polyamide-Based Composite Materials

Online veröffentlicht: 31 Dec 2019
Seitenbereich: 67 - 82

Zusammenfassung

Abstract

Carbon fiber has been used to reinforce both aliphatic and aromatic polyamides. Aliphatic polyamide is known as nylon and aromatic polyamide is often referred to as aramid. Among aliphatic polyamides, polyamide 6, polyamide 6,6, polyamide 11, polyamide 12, and polyamide 1010 have been used as matrices for carbon fiber. Factors affecting the properties of polyamide/carbon fiber composites are: fiber amount, fiber length, fiber orientation, matrix viscosity, matrix-fiber interactions, matrix-fiber adhesion, and conditions encountered during manufacturing processes. This article presents a state-of-the-art review on polyamide/carbon fiber composites. Polyamide/carbon fiber composites are lightweight and exhibit high strength, modulus, fatigue resistance, wear resistance, corrosion resistance, gear, electrical conductivity, thermal conductivity, chemical inertness, and thermal stability. Incorporation of oxidized or modified carbon fiber and nanoparticle modified carbon fiber into polyamide matrices have been found to further enhance their physical properties. Applications of polyamide/carbon fiber composites in aerospace, automobile, construction, and other industries have been stated in this review. To fully exploit potential of polyamide/carbon fiber composites, concentrated future attempts are needed in this field.

Schlüsselwörter

  • Polyamide
  • carbon fiber
  • reinforcement
  • composite
  • strength

Planen Sie Ihre Fernkonferenz mit Scienceendo