Comparative theoretical analysis of continuous wave laser cutting of metals at 1 and 10 μm wavelength

Brügmann, Michael; Feurer, Thomas

doi:10.1007/s00339-014-8233-6

Cited by 8 publications

(4 citation statements)

References 20 publications

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“…To develop the temperature history of the irradiated sample, the nondimensionalization method was introduced to track the changes due to each laser parameter, by calculating the non-dimensional temperature at the surface, depth, and center where the maximum non-dimensionaltemperature occurs [13]- [15]. This method is a simple technique for tracking the trend of changes occurring in laser irradiation, and is an effective step in investigating the effects of laser parameters upon the heat-affected profile [4] [16].…”

Section: Methodsmentioning

confidence: 99%

“…Lasers are able to deliver a range of very low to extremely high energy with extreme precision in dimension, spatial, and temporal distribution. In comparison to conventional methods, this laser approach is more flexible and reduces processing time, making it particularly suitable for both mass production and rapid prototyping and custom-scale manufacturing for a wide variety of applications such as micro-welding, drilling, cutting, and heat treatment of metals and alloys [3] [4].…”

Section: Introductionmentioning

confidence: 99%

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ND:YAG Laser Pulses Ablation Threshold of Stainless Steel 304

Radmanesh¹,

Kiani²

2015

MSA

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Laser processing and laser surface texturing in multiple fields have become a popular topic of study in recent decades. Understanding the principles behind the laser irradiation mechanism is an essential step in choosing the most effective process parameters. Through this study, the effects of power and pulse duration on the structure and surface pattern of stainless steel type 304 were examined, and optimized laser parameters were introduced for desired laser penetration and heat-affected areas on the surface. The analyzed sample was prepared by using variations of pulse durations and different pulsed energies. Looking at the trend of change of non-dimensional temperature along the surface, thickness, and center of the sample, the effects of pulse duration and intensity (corresponding to energy) were observed. Upon considering all the aspects of the irradiated spots, such as heat-affected area diameter, surface patterns, and penetration depth, the advantages and disadvantages of short and long pulse durations are mapped out clearly. Also, a new method to obtain the ablation threshold of stainless steel is introduced, and a thorough analytical solution is obtained.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

ND:YAG Laser Pulses Ablation Threshold of Stainless Steel 304

Radmanesh¹,

Kiani²

2015

MSA

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“…Richter S et al [15] proposed the laser etching method of a micro-heat pipe composite groove, designed an orthogonal experiment to explore the influence of laser parameters on groove etching effect and optimized the laser etching process parameters of a micro-heat pipe composite groove. Brügmann et al [16] analyzed the temperature change in the process of continuous laser metal cutting by establishing a simulation model and studied the metal plate processing efficiency of different wavelengths of laser by process test. Aiming at the problem of laser etching of aluminum alloy sheet, Hui Zhang et al [17] analyzed the effects of laser power, laser cutting speed and gas pressure on laser etching mass, established an orthogonal experiment based on a singlefactor experiment and obtained the process parameter combination with the best etching effect.…”

Section: Introductionmentioning

confidence: 99%

Design and Optimization of Laser Processing Control System and Process Parameters for Micro Crystal Resonator Frequency Modulation

Guo

Fang

et al. 2022

Applied Sciences

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The adjustment of the natural frequency of a micro crystal resonator (MCR) is the key requirement in its manufacturing, which determines the actual performance of the product. Laser processing is a new method for MCR frequency modulation, and its process parameters directly affect the frequency modulation effect. Aiming at the laser processing equipment for MCR frequency modulation, the structure of the laser processing control system for MCR frequency modulation is designed by analyzing the requirements of a laser processing control system. The working flow of the laser processing control system for MCR frequency modulation is studied, the motion control method of the laser processing platform for MCR frequency modulation is proposed, and the laser processing control system for MCR frequency modulation is designed. By analyzing the laser characteristics for MCR frequency modulation, an orthogonal experiment is carried out to optimize the laser processing parameters for MCR frequency modulation.

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“…Aiming at the welding process of aluminum alloy parts, Tsirkasd et al [14] analyzed the change of temperature field in laser welding process by establishing three-dimensional finite element simulation model, and predicted the temperature of T-type laser welding plate during processing. Brügmann et al [15] analyzed the temperature change in the process of continuous laser metal cutting by establishing a simulation model, and the metal plate processing efficiency of laser with different wavelengths was compared through process test. Weng et al [16] found that the increase in laser power would increase the porosity and interface cracking sensitivity of the cladding layer.…”

Section: Introductionmentioning

confidence: 99%

Error Model and Frequency Modulation Characteristics Analysis of Laser Processing Platform for Micro Crystal Resonator

et al. 2022

Applied Sciences

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Laser processing platform for micro crystal resonator (MCR) frequency modulation is an important piece of equipment to apply laser etching technology to the MCR frequency modulation process. The positioning accuracy of the laser processing platform has an important influence on frequency modulation characteristics. In order to improve the precision and efficiency of the laser processing platform for MCR frequency modulation, the error model of the laser processing platform for MCR frequency modulation is established based on the multi-body system theory. According to the Monte Carlo simulation method, the influence of laser processing platform error for MCR on frequency modulation characteristics is analyzed. Considering the requirements of the MCR frequency modulation process, the laser processing platform for MCR frequency modulation is built, and the frequency deviation and frequency modulation performance are verified to meet the engineering requirements.

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Comparative theoretical analysis of continuous wave laser cutting of metals at 1 and 10 μm wavelength

Cited by 8 publications

References 20 publications

ND:YAG Laser Pulses Ablation Threshold of Stainless Steel 304

ND:YAG Laser Pulses Ablation Threshold of Stainless Steel 304

Design and Optimization of Laser Processing Control System and Process Parameters for Micro Crystal Resonator Frequency Modulation

Error Model and Frequency Modulation Characteristics Analysis of Laser Processing Platform for Micro Crystal Resonator

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