The Laser Materials Processing Conference welcomes the global audience to participate in the conference which is to be held on May 20-21, 2021 at Osaka, Japan. The main theme of the conference is “Estimating the future laser marketing”. This conference brings together the innovations in materials processing and brings the key opinion leaders and thought leaders in the field from around the world for two intensive days of scientific presentations, networking as well as engagement with companies developing innovations in tools and technologies in this space. The purpose of Materials Processing 2021 is to provide an international technical forum to showcase recent advances in Laser and Materials Processing Materials Processing 2021 brings together top researchers and emerging research leaders to spark scientific exchange and create community.
Session 1: Advanced Laser Processing
The essential objective of this laser advance processing meeting is to give a discussion to experts in materials science, laser processing, mechanical engineering, design tools, software modelling, characterization and metrology to share and talk about the most recent advances in the field of laser-based assembling. This get-together will offer an extraordinary chance to join the exchange for the advancement and execution of cutting edge laser-based 3D producing forms.
Laser Welding, Cladding, and Additive Manufacturing
Laser Cleaning and Modification
Laser Cutting and Drilling
Laser Micro-/Nanofabrication and Ultrafast Laser Processing
Laser Shock Peening
Laser Additive Manufacturing
Session 2: Advanced Optical and Magnetic Material
New electronic and photonic Nano-materials guarantee emotional achievements in correspondences, figuring gadgets, and strong state lighting. Ebb and flow research includes mass gem development, natural semiconductors, dainty film and nanostructure development, and delicate lithography alongside inquires about identified with Optics. A few of the major photonics organizations on the planet sees on various innovations and sentiments about future difficulties for makers and integrators of lasers and photonics items.
Session 3: Advanced Materials & Functional Devices
Advanced Materials are at the heart of many technological developments that touch our lives. This is The Creation of Advanced Materials at the Molecular or Nuclear Measure For the reason for advancing technology, growing further effective items, making novel manufacturing technologies, or improving the human knowledge. The capacity to rapidly and dependably set out numerous conductive layers with ultrafine goals has prompted the scaling down and low cost of most microelectronic components. Functional Devices has established itself as a leader in the HVAC, Building Controls, Energy Management, Energy Savings, Lighting Controls, and Wireless industries.
Session 4: Micro patterning and Nano processing
This special issue includes topics mainly related to semiconductor research and industry, and in addition to other research and manufacturing sectors where lithography and pattern transfer are important. Contributions are focused on the lithographic material, lithographic process, metrology, and finally on advanced etching and patterning. Contributions should be mainly concentrated in a single process/method, from the tentative list below:
EUV, and optical lithography
Electron and Ion Beam Lithography
Nanoimprint Lithography including R2R nanoimprint, Soft Lithography
Mask or template fabrication, Mask-Less Lithography, Scanning probe techniques
Materials for Micro and Nano lithography
Novel nanolithography and nanopatterning methods
Advanced Plasma etching, Plasma ashing
Nanometrology inspection and process control
Lithography- etching simulation
Session 5: Drilling, Brazing and Soldering
Brazing is ideally suited for joining of dissimilar metals and is performed at relatively low temperature. But even a properly-designed joint can turn out imperfectly if the correct brazing process steps are not followed. These brazing procedures boil down the brazing process to six basic steps. There are six fundamentals of brazing that every brazer should follow to ensure consistent and repeatable joint quality, strength, hermeticity, and reliability. For the sake of simplicity, we'll discuss these six brazing process steps mainly in terms of "manual brazing," that is, brazing with hand-held torch and hand-fed filler metal. But everything said about manual brazing applies as well to mass production brazing. The same brazing process steps must be taken, although they may be performed in a different manner.
soldering is a technique where a precisely focused laser beam provides controlled heating of the solder alloy leading to a fast and non-destructive of an electrical joint. The process uses a controlled laser beam to transfer energy to a soldering location where the absorbed energy heats the solder until it reaches its melting temperature leading to the soldering of the contact and this completely eliminates any mechanical contact.
Soft soldering using laser radiation is becoming more and more significant in the field of selective soldering techniques. Fast power controllability combined with a contactless temperature measurement to minimize thermal damage make the diode laser an ideal tool for this application. These advantages come into full effect when soldering of increasingly small parts in temperature sensitive environments is necessary. Laser soldering is a solution for applications that require selective solder joints such as connecting a circuit board to external terminals or for repair work.
Laser Soldering Methods
Diode Laser Soldering
Smart Fiber Coupled Diode Laser
Laser Selective Soldering
Laser Soldering System
Session 6: Beam delivery system
For materials processing with lasers, beam delivery systems are necessary for directing the radiation from the laser head to the working point on the work piece. The more new fields of application are assumed by the laser, the greater the need for beam delivery systems which have been appropriately designed to meet the requirements of the task to be performed. Depending on the task on hand the appropriate design may be a fixed pipe with a focussing lens at its end or a six-axis articulated arm. This paper will describe the design principles and their optical and mechanical properties. The discussion of the advantages and disadvantages may be of some help in choosing an adequate delivery system.
Session 7: Micro and remote welding
Micro Welding has been known that wavelength, power density, interaction time and material properties have great influence on processing characteristics in laser material processing, in which materials with higher reflectivity classify into difficultto- weld materials. In electronic industry, aluminum alloy is widely used as structural components due to its high specific strength, and copper became an important material because of its excellent electrical conductivity. These materials have high reflectivity and high thermal conductivity, which results in instability of energy absorption and processing results. Therefore, welding defects might be noticed in the micro-joining of aluminum alloy and copper. In this paper, the smart laser micro-welding of difficult-to-weld materials such as aluminum alloy and copper were discussed. The combination of a pulsed Nd:YAG laser and a continuous diode laser could perform high-performance micro-welding of aluminum alloy. A pulsed Nd:YAG laser was absorbed effectively from the beginning of laser scanning by pre-heating Nd:YAG laser pulse with the superposition of continuous diode laser, and wide and deep weld bead could be obtained with better surface integrity. As for micro-welding of copper material, stable absorption state could be achieved using a pulsed green Nd:YAG laser, since its absorptivity showed almost constant values with change of power density. A longer pulse duration was effective to achieve not only high absorptivity but also low deviation of absorptivity. The pulse waveform with maximum peak at the early period and a long pulse duration led to stabilizing the penetration depth with less porosity.
Session 8: Industrial application of Laser
Laser industry professionals from academic and industrial settings will gather to discuss the latest in laser additive manufacturing (LAM), laser materials macro processing, laser materials micro processing, battery and energy conversion, and laser Nano manufacturing. Topics range from the interaction between a laser beam and a material to how a process can be integrated and optimized for an application. Industrial High power applications, such as hardening, cladding, and deep penetrating welding, require multiple kW of optical power, and are used in a broad range of industrial processes. Laser welding. Laser drilling. Laser marking. Today, Industrial Laser System is apparently the most versatile instrument available for various material getting ready applications like welding, exhausting, cutting, warm treatment (hardening, reinforcing, covering, cladding et cetera.) and certain especially exceptional applications like slack of interstellar pieces, Laser changing, disengaged refinement and decommissioning of parts of unexploited nuclear foundations, laser evacuation, oil and gas examination, auto industry et cetera.
Lunar laser ranging
Welding and Cutting
Laser nuclear fusion
CDs and Optical discs
Session 9: Laser-based Additive Manufacturing
Laser-based additive manufacturing is a versatile manufacturing technique, extensively adopted to fabricate metallic components of enhanced properties laser-based processes such as Selective Laser Melting and Laser Engineered Net Shaping are dominating processes while Laminated Object Manufacturing has also been used.
Nanotechnology has found a vast number of applications in many areas and its market grown at a rapid pace in recent years. This resulted in new horizons in materials science and many exciting new developments. The supply of new Nanomaterials, form the prerequisite for any further progress in this new area of science and technology. Nanomaterials feature specific properties that are characteristic of these materials, and which are based on surface and quantum effects. The control of composition, size, shape, and morphology of nanomaterials is an essential foundation for the development and application of Nanomaterials and Nano scale devices.
Session 11: Laser detectors
Device that operates by interaction of incident radiation with semiconductor based material in order to produce an electrical signal or by other means, to interact with calorimetric devices which produce a thermally induced current. The response of the detection devices will vary by the source wavelength, intensity and energy.
Session 12: Gas, solid and diode laser
Gas lasers using many gases have been built and used for many purposes. The helium–neon (HeNe) laser can be made to oscillate at over 160 different wavelengths by adjusting the cavity Q to peak at the desired wavelength. This can be done by adjusting the spectral response of the mirrors or by using a dispersive element (Littrow prism) in the cavity. Units operating at 633 nm are very common in schools and laboratories because of their low cost and near perfect beam qualities. Carbon dioxide lasers, or CO2 lasers can emit hundreds of kilowatts at 9.6 µm and 10.6 µm, and are often used in industry for cutting and welding. Solid laser covers the spectrum of solid-state lasers from materials research to applied science and design innovations.
The lasers market is expected to grow at a moderate rate during the forecast period, 2018 to 2023. Asia-Pacific is estimated to lead the market, owing to the growing demand from medical industry. Electronics is estimated to be the largest end-use industry for lasers.
The worldwide laser market will proceed with its intense development in the coming years, as per various reports, the innovation propels industry wide. While this development is occurring around the globe, the Asia-Pacific (APAC) locale is relied upon to see the speediest extension.
Parallel to far reaching mechanical advancement, the laser processing showcase is exhibiting strong development in assembling, broadcast communications and buyer hardware particularly in the APAC area.
A few statistical surveying organizations quality this strong improvement, to progresses in and interest for innovations in the assembling division. Laser parts and frameworks progressively are being discovered and are producing applications. In particular, laser innovation has started supplanting conventional machine instruments in assembling applications, as ease fiber lasers and mechanical pulse lasers are being created.
The anticipated extension in the following quite a long while of telecommunications into the biggest end-utilize segment of the photonics business can be credited to a rising interest for optical filaments. Optical fibres are rapidly ending up more prominent than customary metallic wires, as they exhibit more prominent wellbeing and security, media communications and data innovation is inciting new advancements in locales, for example, China and India.
Developing interest in R&D crosswise over APAC is driving the microscopy gadgets advertise, similar to the development of colleges and research establishments there. An expanded concentrate on nanotechnology has turned into a driving element in this market portion, and development of the electronic and sustainable power source enterprises has supported the interest in microscopy gadgets in semiconductor applications. The high determination limit of such gadgets is driving R&D propels in neuro science and neurology. The expanding utilization of electron and examining test magnifying lens is further impelling the microscopy gadgets advertise section.
The market for photonic incorporated circuits (PICs) is quickly developing as a noteworthy industry area. The pivotal innovation is changing optical systems around the world. According to Markets and Markets, this fragment will reach $1.5 billion inside the following five years. And keeping in mind that North America held the reins for the PIC section in 2015, APAC has developed as a solid area with brisk market development expected by Statistics Market Research Consulting. As per Markets and Markets, APAC ought to wind up plainly the PIC showcase pioneer by 2022, developing every year by 26 percent.
The IR identifiers advertise is another in which APAC should see quick, critical development throughout the following five years. Unified Market Research found that China, specifically, has the greatest market for IR indicator makers and customers. Generally speaking, the market in APAC is being encouraged by security concerns, producing industry exercises and expanded uses in developing markets, for example, Japan and India.
From bio and medicinal applications to resistance and security, the photonics showcase in all fields is surging, as the Asia-Pacific area turns into the "biggest and quickest developing business sector for photonics," as per advertise specialists. Also, there are no signs it will back off at any point in the near future. The photonics and lasers showcase development in APAC is expected principally to three variables: quicker financial development in APAC than different districts of world, move in assembling to APAC, and an expanding utilization of lasers for assembling.
Electronics is expected to be the largest market
Lasers are used to manufacture electronic products, such as cell phones, microprocessors, display panels, and memory chips. These electronic products comprise of a large number of different materials, multiple layers of extremely low thicknesses, and very small features, which require advanced and high-precision manufacturing processes. To manufacture these complex components, use of laser materials has increased in the recent years in the electronics industry. In addition, expanding use of electronics by consumers, declining prices of electronics and increase in demand for various electronic products in households and offices is further driving the market for lasers in the electronics industry globally.
• Stanford University
• Harvard University
• California University
• University of Chicago
• Yale University
• The Ohio State University
• University of South Florida
• University of Central Florida
• Johns Hopkins University
• North western University
• Carnegie Mellon University
• Brown University
• University of Texas
• Georgia Institute of Technology
• The University of Warwick
• The University of Manchester
• Lancaster University
• The University of Edinburgh
• University of Cambridge
• University of Oxford
• University of Glasgow
• Newcastle University
• University of Liverpool
• Coventry University
• University off Portsmouth
• London Southbank University
• University of Suss
• University of Dundee
• Bangor University
• Tsinghua University
• Fudan University
• Shanghai Jiao Tong University
• Zhejiang University
• Nanjing University
• Huazhong University
• Shenzhen University
• Ural Federa University
• Edity Cowan University
• University of Tasmania
• University of Wollongong
• The University of Western Australia
• National University of Singapore
• The University of Sydney
• Novosibirsk State University
Global University and Research Centres
• Center for Photochemical Sciences
• Center for Advanced Materials Research
• Centre for Manufacturing Metrology
• University of California at Berkeley
• Center for Optics, Photonics and Lasers
• Centre for Laser Processing of Materials
• Centre for Sensors, Instruments and Systems Development
• Center for Optical Materials Science and Engineering Technologies
• Center for Electronic Imaging Systems
• Physics and Optical Engineering
Global Association & Societies:
Laser Societies in USA:
• Optical Society of America
• National Society of Black Physicists
• The International Society for Optics and Photonics
• Ontario Centre of Excellence for Photonics
• Laser Institute of America
• American Society for Laser Medicine and Surgery
• New Mexico Optics Industry Association
• Florida Photonics Cluster
• Academy of Infrared Training Bellingham
• Academy of Laser Dentistry
• Radiological Society of North America
• Association for Advancing Vision + Imaging
• Association for the Advancement of Medical Instrumentation
• American Society for Photogrammetry & Remote Sensing
• American Society for Precision Engineering
• The American Precision Optics Manufacturers Association
• Finnish Optical Society
Laser Societies in Europe:
• Danish Optical Society
• Italian Physical Society
• French Physical Society
• Advanced UV for Life Berlin
• European Physical Society
• Society of Physics Students
• Ualbany Society of Physics
• European Society of Laser Aesthetic Surgery
• International Centre for Theoretical Physics
• European Organization for Nuclear Research
• International Union of Pure and Applied Physics
Laser Societies in Asia:
• The Regional Center for Next Generation Manufacturing
• Indian Laser Association Optical Society of India
• Taiwan Optics/Optronics Manufacturers Association
• Photonics Industry & Technology Development Association
• Australian Optical Society
• The Japan Society of Applied Physics
• Bangladesh physical society
• Physical society of Japan
• Korean physical society
• Chinese physical society
• Nepal physical society
• Association of Asia pacific physics
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Meetings International Â is announcing Young Scientist Awards throughÂ 16th International Conference on Laser Materials ProcessingÂ (Materials Processing 2021) which is scheduled at Osaka, Japan during May 20-21, 2021. ThisÂ Materials ProcessingÂ focuses on â€œESTIMATING THE FUTURE LASER MARKETING"
Materials Processing 2021 and Upcoming ConferenceÂ will recognise participants who have significantly added value to the scientific community of Materials Processing and provide them outstanding Young Scientist Awards. TheÂ Young Scientist AwardÂ will provide a strong professional development opportunity for young researches by meeting experts to exchange and share their experiences at ourÂ international Webinar.
Materials Processing 2021Â focuses mainly on Laser & Optics, Advanced Laser Processing, Drilling, Brazing and Soldering, Laser device in Medical, Industrial application of laser, Micro patterning and Nano processing.Â Materials Processing Conference operating committeeÂ is providing a platform for all the budding young researchers, young investigators, post-graduate/Master students, PhD. students and trainees to showcase their research and innovation.
Young Scientists, faculty members, post-doctoral fellows, PhD scholars and bright Final Year MSc and M.Phil. candidates. Persons from Scientific Industry can also participate.
Benefits:Â The Young Scientist Feature is a platform to promote young researchers in their respective area by giving them a chance to present their achievements and future perspectives.
Acknowledgement as YRF Awardee
Promotion on the conference website, Young Researcher Awards and certificates
Link on the conference website
Recognition on Meetings Int. Award Page
Chances to coordinate with partners around the world
Research work can be published in the relevant journal without any publication fee
All presented abstracts will automatically be considered for the Award.
All the presentation will be evaluated in the conference venue
All the awards will be selected by the judges of the award category
The winners of the Young Scientist Award will receive award certificate.
The awards will be assessed as far as plan and format, intelligence, argumentation and Â approach, familiarity with past work, engaging quality, message and primary concerns, parity of content visuals, and by and large impression.
All submissions must be in English.
The topic must fit into scientific sessions of the conference
Each individual participant is allowed to submit maximum 2 papers
Abstract must be submitted online as per the given abstract template
Abstracts must be written in Times New Roman and font size will be 12
Abstract must contain title, name, affiliation, country, speakers biography, recent photograph, image and reference
To receive the award, the awardee must submit the presentation for which the award is given, for publication at the website, along with author permission. Failure to submit the PPT and permission within the designated timeframe will result in forfeiture of award.
Official announcement of the recipients will occur after the completion ofÂ Materials Processing Webinar.
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