Current Trends in Metallic Materials for Body Panels and Structural Members Used in the Automotive Industry

Trzepieciński, Tomasz; Najm, Sherwan Mohammed

doi:10.3390/ma17030590

Cited by 26 publications

(7 citation statements)

References 257 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Due to its high specific strength and corrosion resistance [ 1 , 2 ], titanium alloy exhibits broad prospects in lightweight applications [ 3 ]. As a consequence, individuals are progressively extending their applications to the transportation sector [ 4 ]. Therefore, there is an urgent need for an efficient and cost-effective specialized forming method for titanium alloy.…”

Section: Introductionmentioning

confidence: 99%

Finite Element Simulation and Microstructural Evolution Investigation in Hot Stamping Process of Ti6Al4V Alloy Sheets

Qu,

Gu,

et al. 2024

Materials

View full text Add to dashboard Cite

Titanium alloy hot stamping technology has a wide range of application prospects in the field of titanium alloy part processing due to its high production efficiency and low manufacturing cost. However, the challenges of forming titanium alloy parts with large depths and deformations have restricted its development. In this study, the hot stamping process of a Ti6Al4V alloy box-shaped part was investigated using ABAQUS 2020 software. The thermodynamic properties of a Ti6Al4V alloy sheet were explored at different temperatures (400 °C, 500 °C, 600 °C, 700 °C, 800 °C) and different strain rates (0.1 s−1, 0.05 s−1, 0.01 s−1). In addition, the influence law of hot stamping process parameters on the minimum thickness of the formed part was revealed through the analysis of response surface methodology (RSM), ultimately obtaining the optimal combination of process parameters for Ti6Al4V alloy hot stamping. The experimental results of the hot stamping process exhibited a favorable correlation with the simulated outcomes, confirming the accuracy of the numerical simulation. The study on the microstructure evolution of the formed parts showed that grain refinement strengthening occurred in the part with large deformation, and the formed box-shaped parts exhibited a uniform and fine microstructure overall, demonstrating high forming quality. The achievements of the work provide important guidance for the fabrication of titanium alloy parts with large depths and deformations used in heavy industrial production.

show abstract

Section: Introductionmentioning

confidence: 99%

Finite Element Simulation and Microstructural Evolution Investigation in Hot Stamping Process of Ti6Al4V Alloy Sheets

Qu,

Gu,

et al. 2024

Materials

View full text Add to dashboard Cite

show abstract

“…The high strength, low weight and exceptional corrosion resistance of titanium and titanium alloys have led to a wide and diverse range of applications in the aerospace industry [ 1 ], chemical engineering [ 2 ], the automotive industry [ 3 ], marine applications [ 2 ], biomedical applications [ 4 ] and sports equipment [ 5 ]. Titanium and its alloys can be classified into five groups according to their microstructure [ 6 ]: single-phase α alloys, two-phase α+β alloys, single-phase β alloys, pseudo α alloys (consisting of the α phase and a small content of elements stabilising the β phase—that is, Cr, Mo, V, Cu, Ru) and pseudo β alloys containing quite a large amount of elements stabilising the β phase (i.e., Ga, Al, Ge), which causes a shift of the β → α phase transformation to lower temperatures.…”

Section: Introductionmentioning

confidence: 99%

The Influence of the Shielding-Gas Flow Rate on the Mechanical Properties of TIG-Welded Butt Joints of Commercially Pure Grade 1 Titanium

Szwajka,

Zielińska-Szwajka,

Trzepieciński

2024

Materials

Self Cite

View full text Add to dashboard Cite

This article proposes as a novelty the differentiation of shielding-gas flow rates from both sides of the tungsten inert gas (TIG)-welded butt joints of commercially pure (CP) grade 1 titanium tubes. Such an approach is aimed at economically reducing the amount of protective gas used in TIG closed butt welding. The effect of the shielding-gas flow rate on the properties of CP grade 1 titanium butt-welded joints made using the tungsten inert gas (TIG)-welding method. Butt-welded joints were made for different values of the shielding-gas flow from the side of the root of the weld. Argon 5.0 was used as the shielding gas in the welding process. As part of the research, the welded joints obtained were analysed using optical and scanning electron microscopy. The microstructural characteristics of the joints were examined using an optical microscope, and the mechanical properties were determined using hardness and tensile tests. It was observed that as the flow of the shielding gas decreases, the hardness of the weld material increases and its brittleness also increases. A similar trend related to the amount of gas flow was also noticeable for the tensile strength of the joints. The increase in the hardness of the weld and the heat-affected zone compared to the base metal is mainly related to the increase in the amount of acicular structure (α′ phase). The optimal gas flow rates from the side of the root of weld were found at the values of 12 dm3/min.

show abstract

“…In order to comprise lightweight construction, safety, and structural performance, vehicle material list have been continuously shifting through the employment of a higher variety of materials, e.g., through the usage of aluminum alloys and Advanced High-Strength Steels (AHSS). Trzepiecinski and Najm provide a comprehensive overview of the applications of metallic materials in the automotive industry [7].…”

Section: Introductionmentioning

confidence: 99%

“…Metals 2024, 14, x FOR PEER REVIEW 2 of 53 materials, e.g., through the usage of aluminum alloys and Advanced High-Strength Steels (AHSS). Trzepiecinski and Najm provide a comprehensive overview of the applications of metallic materials in the automotive industry [7].…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

A Review of Sheet Metal Forming Evaluation of Advanced High-Strength Steels (AHSS)

Pereira,

Peixinho,

Costa

2024

Metals

View full text Add to dashboard Cite

This paper presents a review on the formability evaluation of AHSS, enhancing necking-based failure criteria limitations. Complementary fracture/damage constitutive modeling approaches specifically tailored to formability evaluation, validated through numerical and experimental methods, are also subjects of research. AHSS are widely processed through sheet metal forming processes. Although an excellent choice when lightweight, high-strength, and ductility are critical factors, their multi-phase microstructure accentuates forming challenges. To accurately model forming behavior, necking-based failure criteria as well as direct fracture models require improvements. As a necking-based failure model, the conventional forming limit diagram/curve (FLD/FLC) presents limitations in estimating direct fracture (surface cracks, edge cracks, shear cracks), as well as deformation histories under non-linear strain paths. Thus, significant research efforts are being made towards the development of advanced fracture constitutive models capable of predicting fracture scenarios without necking, which are more frequently observed in the realm of AHSS. Scientific community research is divided into several directions aiming at improving the forming and fracture behavior accuracy of parts subjected to sheet metal forming operations. In this review paper, a comprehensive overview of ductile fracture modeling is presented. Firstly, the limitations of FLD/FLC in modeling fracture behavior in sheet metal forming operations are studied, followed by recent trends in constitutive material modeling. Afterwards, advancements in material characterization methods to cover a broad range of stress states are discussed. Finally, damage and fracture models predicting failure in AHSS are investigated. This review paper supplies relevant information on the current issues the sheet metal forming community is challenged with due to the trend towards AHSS employment in the automotive industry.

show abstract

Current Trends in Metallic Materials for Body Panels and Structural Members Used in the Automotive Industry

Cited by 26 publications

References 257 publications

Finite Element Simulation and Microstructural Evolution Investigation in Hot Stamping Process of Ti6Al4V Alloy Sheets

Finite Element Simulation and Microstructural Evolution Investigation in Hot Stamping Process of Ti6Al4V Alloy Sheets

The Influence of the Shielding-Gas Flow Rate on the Mechanical Properties of TIG-Welded Butt Joints of Commercially Pure Grade 1 Titanium

A Review of Sheet Metal Forming Evaluation of Advanced High-Strength Steels (AHSS)

Contact Info

Product

Resources

About