Liquid-Phase Deposition, Electroplating

Bäuerle, D.

doi:10.1007/978-3-642-17613-5_21

Cited by 7 publications

(6 citation statements)

References 13 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…These interactions can lead to entrapment in the electronic state of the material, changes in bonds, and the formation of defects. Figure 1 summarizes the specific physical interactions of the material with the laser (Bäuerle, 2011;William M. Steen & Mazumder, 2010). Lasers are not only established and essential tools for current manufacturing technologies but also can provide solutions to upcoming complex challenges in industrial materials processing.…”

Section: Introductionmentioning

confidence: 99%

Effect of Processing Conditions on Microstructure: Al-Cu-Si Eutectic Alloy

Büyük

2024

21. Yüzyılda Mühendislikte Çağdaş Araştırma Uygulamaları Üzerine Disiplinler Arası Çalışmalar- VI

View full text Add to dashboard Cite

Aluminium is widely used in various industries such as food, electrical and electronics, automotive, aerospace and construction due to its favorable properties such as malleability, corrosion resistance, environmental resistance and high strength-to-weight ratio. In aluminum-based casting alloys, the main alloying elements commonly used in industry are silicon, copper and magnesium. In this study, the microstructure properties of the Al-26.5Cu-6Si (wt.%) ternary eutectic alloy were examined in relation to directional solidification. The alloy was processed in a vacuum melting furnace and solidified directionally at various growth rates using a Bridgman type device. The experimental results revealed eutectic transformation of the Al-26.5Cu-6Si alloy, leading to the formation of matrix Al, lamella Al2Cu, and plate Si phases. Eutectic spacing was measured from the produced samples, and it was found that the values were significantly affected by the growth rate. The results of this study were compared to the experimental results of binary Al-Cu and ternary Al-Cu-Si-Fe eutectic alloys.

show abstract

Section: Introductionmentioning

confidence: 99%

Effect of Processing Conditions on Microstructure: Al-Cu-Si Eutectic Alloy

Büyük

2024

21. Yüzyılda Mühendislikte Çağdaş Araştırma Uygulamaları Üzerine Disiplinler Arası Çalışmalar- VI

View full text Add to dashboard Cite

show abstract

Section: Introductionmentioning

confidence: 99%

Investigation and Comparison of Climate Boundary Maps Generated with Various Climate Classifications

Yalçın,

Arca

2024

21. Yüzyılda Mühendislikte Çağdaş Araştırma Uygulamaları Üzerine Disiplinler Arası Çalışmalar- VI

View full text Add to dashboard Cite

Climate has continuously undergone change throughout history. Understanding this change contributes significantly to the determination of boundaries for different climate types. Climate classifications aim to differentiate various climate types and identify similar or different locations. This facilitates the sustainable use of local resources and the development of land use plans. Additionally, comprehending the impact of climate on property is crucial for its management and regulation, enabling a more organized approach to property utilization. In this context, various climate classification methods have been developed. These methods assist in determining local climate differences, tracking changes over time, and establishing boundaries suitable for different climate types. This study aims to create climate boundary maps for Burdur province using Köppen, Trewartha, de Martonne, Aydeniz, Erinç, and Thornthwaite methods. Within the scope of the study, data from 11 meteorological observation stations in Burdur province have been organized within a Geographic Information System (GIS) and classified into climate types. Finally, climate boundary maps representing the entire region were generated using the Kriging interpolation method based on the identified climate classification.

show abstract

Section: Introductionmentioning

confidence: 99%

Advanced Laser Material Processing Techniques

Özbey,

Tıkız

2024

21. Yüzyılda Mühendislikte Çağdaş Araştırma Uygulamaları Üzerine Disiplinler Arası Çalışmalar- VI

View full text Add to dashboard Cite

The growing importance of laser material processing technologies in various industries, expanding application areas, and decreasing costs of laser systems make this technology critically important. This paper provides a comprehensive review of the advances, applications and impacts of laser technology in manufacturing, with a particular focus on laser surface treatment, welding, cutting, drilling and cladding. Academic research in this area is leading to the development of innovative manufacturing techniques aimed at improving product quality, designing multi-material components and supporting economic benefits. Numerous studies have been conducted to investigate and optimize the effects of lasers on materials, leading to significant advances in laser materials processing. Key findings highlight the importance of laser surface treatment in enhancing material properties, the versatility and precision provided by laser welding, the advantages of non-contact machining, the high speed and flexibility of laser cutting, and the capacity of laser drilling to effectively process hard and high-strength materials. Furthermore, it is critical to carefully determine the appropriate laser parameters to achieve the desired mechanical properties in laser-processed materials. Ongoing research is directed toward further understanding laser-material interactions and improving laser processing techniques. In brief, laser material processing technologies continue to play an important role in improving manufacturing processes and enhancing product quality.

show abstract

Liquid-Phase Deposition, Electroplating

Cited by 7 publications

References 13 publications

Effect of Processing Conditions on Microstructure: Al-Cu-Si Eutectic Alloy

Effect of Processing Conditions on Microstructure: Al-Cu-Si Eutectic Alloy

Investigation and Comparison of Climate Boundary Maps Generated with Various Climate Classifications

Advanced Laser Material Processing Techniques

Contact Info

Product

Resources

About