Advanced Manufacturing Technology - Science topic

Conducting a SWOT analysis of the applications of artificial intelligence technology in business, in the business activities of companies and enterprises, shows that there are both many already and developing many more business applications of the said technology, i.e., many potential development opportunities are recognized in this field of using the achievements of the current fourth and/or fifth technological revolution in various spheres of business activity, as well as there are many risks arising from inappropriate, incompatible with the prevailing social norms, standards of reliable business activity, incompatible with business ethics use of new technologies. Among some of the most recognized negative aspects of improper use of generative artificial intelligence technology is the use of AI-equipped graphic applications available on the Internet that allow for the simple and easy generation of photos, graphics, images, videos and animations that, in the form of very realistically presented images, photos, videos, etc., depict something that never happened in reality, i.e., they graphically present images or videos presenting what could be described as “fictitious facts” in a very professional manner. In this way, Internet users can become disinformation generators in online social media, where they can post the said generated images, photos, videos, etc. with added descriptions, posts, comments, in which the said “fictitious facts” presented in the photos or videos will also be described in an editorially correct manner. Besides, the mentioned descriptions, posts, entries, comments, etc. can also be edited with the help of intelligent chatbots available on the Internet like Chat GPT, Copilot, Gemini, etc. However, misinformation is not the only serious problem as it has significantly intensified after OpenAI released the first versions of ChatGPT chatbot online in November 2021. A new category of technical operational risk associated with the new AI technology applied has emerged in companies and enterprises that implement generative artificial intelligence technology into various spheres of business. In addition, there is a growing scale of risks arising from conflicts of interest between business entities related to not fully regulated copyright issues of works created using applications and information systems equipped with generative artificial intelligence technology. Accordingly, there is a demand for the development of a standard of a kind of digital signature with the help of which works created with the help of AI technology will be electronically signed, so that each such work will be unique, unrepeatable and whose counterfeiting will thus be seriously hampered. However, these are only some of the negative aspects of the developing applications of AI technologies, for which there are no functioning legal norms. In the middle of 2023 and then in the spring of 2024, European Union bodies made public the preliminary versions of the developed legal norms on the proper, business-ethical use of technology in business, which were given the name AI Act. The legal normatives, referred to as the AIAct, contain a number of specific, defined types of AI technology applications deemed inappropriate, unethical, i.e. those that should not be used. The AIAct contains classified according to different levels of negative impact on society various types and specific examples of inappropriate and unethical use of AI technologies in the context of various aspects of business as well as non-business activities. An important issue to consider is the scale of the commitment of technology companies developing AI technologies to respect such regulations so that issues of ethical use of this technology are also defined as much as possible in technological aspects in companies that create, develop and implement these technologies. Besides, in order for AIACT's legal norms, when they come into force, not to be dead, it is necessary to introduce both sanction instruments in the form of specific penalties for business entities that use artificial intelligence technologies unethically, antisocially, contrary to AIAct. On the other hand, it would also be a good solution to introduce a system of rewarding those companies and businesses that make the most proper, pro-social, in accordance with the provisions of the AIAct, fully ethical use of AI technologies. In view of the fact that AIACT is to come into force only in more than 2 years so it is necessary to constantly monitor the development of AI technology, verify the validity of the provisions of AIAct in the face of dynamically developing AI technology, successively amend the provisions of the said legal norms, so that when they come into force they do not turn out to be outdated. In view of the above, it is to be hoped that, despite the rapid technological progress, the provisions on the ethical applications of artificial intelligence technology will be constantly updated and the legal normatives shaping the development of AI technology will be amended accordingly. If AIAct achieves the above-mentioned goals to a significant extent, ethical applications of AI technology should be implemented in the future, and the technology can be referred to as ethical generative artificial intelligence, which is finding new applications.

The key issues of opportunities and threats to the development of artificial intelligence technology are described in my article below:

In view of the above, I address the following question to the esteemed community of scientists and researchers:

What do you think about this topic?

What is your opinion on this issue?

Please answer,

I invite everyone to join the discussion,

Thank you very much,

Best regards,

Dariusz Prokopowicz

2025 3rd International Conference on Materials Science and Intelligent Manufacturing(MSIM 2025) will be held in Guangzhou, China from January 10 to 12, 2025.

The topics of interest for submission include, but are not limited to:

◕ Materials Science and Engineering

1. Electronic and magnetic materials

2. Computational materials Science

3. Coupling of multiple iron sequence parameters

4. Crystal defect engineering

5. Crystallography engineering

6. Domain microstructure evolution

7. Domain size effect, grain size effect, small particles, thin films

8. Nanomaterials and nanotechnology......

◕ Intelligent Manufacturing

1. Production process simulation

2. Modeling and design

3. Intelligent system

4. Intelligent mechatronics

5. Micromachining technology

6. Advanced manufacturing technology

7. Sustainable production

8. Recycling and remanufacturing......

All accepted full papers will be published in the Journal of Physics: Conference Series (JPCS) (ISSN:1742-6596)and will be submitted to EI Compendex / Scopus for indexing.

Full Paper Submission Date: December 20, 2024

Registration Deadline: December 31, 2024

Final Paper Submission Date: January 3, 2025

Conference Dates: January 10-12, 2025

Please send the full paper(word+pdf) to Submission System:

2024 4th International Conference on Advanced Manufacturing Technology and Electronic Information (AMTEI 2024) will be held in Chongqing, China from September 20 to 22, 2024.

The topics of interest include, but are not limited to:

Track 1: Optoelectronic Integration and Advanced Manufacturing Technologies

· Precision Manufacturing of Micro and Nano Optoelectronic Devices

· 3D printing and additive manufacturing of optoelectronic materials

· Application of optoelectronic integration in intelligent manufacturing systems

· Design and fabrication of high-performance optoelectronic sensors

· Photoelectric driven robot and automation equipment technology

Track 2: Electronic Information Technology

· Convergent development of information processing technology

· Applications and Challenges of Optical Communication Technology in Data Transmission

· The Role of Photovoltaic Conversion Technology in Energy Efficiency Improvement

· Applications of Photodetectors in Security and Surveillance Systems

· Recent Developments in Optical Information Storage Technology

All accepted full papers will be published in the conference proceedings by SPIE - The International Society for Optical Engineering (ISSN: 0277-786X)and will be submitted to EI Compendex, Scopus for indexing.

Full Paper Submission Date: July 12,2024

Registration Deadline: September 9, 2024

Final Paper Submission Date: September 13, 2024

Conference Dates: September 20-22, 2024

Please send the full paper(word+pdf) to Submission System:

2024 5th International Conference on Advanced Materials and Intelligent Manufacturing(ICAMIM 2024), which is to be held in Guangzhou, China, from November 01-03, 2024.

The topics of interest for submission include, but are not limited to:

◕ Advanced materials

01) Non-ferrous metal materials

02) Steel polymer material

03) Composites

04) Micro/nano materials

05) Optical/electronic/magnetic materials

06) New feature materials

◕ Intelligent manufacturing

01) Biomimicry mechanisms

02) Integrated manufacturing systems

03) Industrial and manufacturing systems analysis and decision-making

04) Digital manufacturing

05) Modeling and design

06) Intelligent systems

07) Intelligent mechatronics

08) Micromachining technology

09) Advanced manufacturing technology

All papers, both invited and contributed, will be reviewed by two or three experts from the committees. After a careful reviewing process, all accepted papers of ICAMIM 2024 will be published in the Journal Of physics: Conference Series (ISSN:1742-6596), and it will be submitted to EI Compendex and Scopus for indexing.

Full Paper Submission Date: October 30, 2024

Registration Deadline: November 1, 2024

Final Paper Submission Date: November 10, 2024

Conference Dates: November 01-03, 2024

Please send the full paper(word+pdf) to Submission System:

I am looking some research papers about Advance Manufacturing Technologies.

Minimum Quantity Lubrication (MQL) is a theoretically and practically proven technic. When MQL is adopted in a production sector, for example (any machine tool-Lathe, Milling, Grinding, drilling), what are the challenges faced (Pros and Cons)?

Extended Reality (XR) includes AR, VR etc.

Hi, I need to make an optical window 0.5 - 1mm thick and 6 mm in diameter from PMMA. I would really want to master the skill of production instead of buying some slug or film sheet because later would need to modify the shape ( make a wedge instead of a plane window ) and so on.

I am planning to make a mold using a 3d printed circular part ( see the drawing attached ) wedged between two microscope slides.

We gave it a try and made a sample, but at that time we didnt have the vacuum chamber and poured the pmma into the could mold. ( see the picture attached )

The problem is that the fist sample was quite large and separated from the glass rather easily, which is not the case for smaller sample. The second problem is bubbles.

Could you please suggest the exact step by step scheme to follow ( the concentration, temperature mode, time frames and so on ) to improve our results and obtain bubble free sample which can be safely parted from the mold after the hardening.

What I have:

1. Methyl methacrylate (CAS Number: 80-62-6) from sigmaaldrich

2. Azobisisobutyronitrile (CAS Number:78-67-1) from sigmaaldrich

3. magnetic stirrer hot plate, beakers, vacuum chamber, heating chamber

Thanks a lot in advance.

I like to pursue my Ph.D in Mechanical Engineering with Stipend.

Please suggest the university in india and other global universities.

Please help.

Cement has been in human use throughout history, and due to its binding nature, it is regarded as the backbone of the construction industry. A recent edition of the journal Nano Energy published the results from major breakthrough research conducted by engineers from Incheon National University, Kyung Hee University, and Korea University. The researchers have invented a cement-based composite (CBC) that can be used in concrete to develop electrical properties without affecting its structural performance. But what if cement could be used to generate electricity?

I am currently working on a project that requires the prediction of the oblique shear angle for an oblique cutting. The numerical iteration should continue until the chip flow angle converges within 10^-14

Banks are reluctant to provide investment loans to newly established startups based on their development on innovative technologies. In such a situation, innovative startups are created and financed from such external sources of financing as investment funds, business angels, issue of securities, crowdfunding and others. Which of these external financing sources predominate in the financing of the assumption and development of innovative startups?

In view of the above, I am asking you the following question:

Please reply

I invite you to the discussion

Thank you very much

Best wishes

I work for a UK discrete manufacturing company where Industry 4.0 is in its infancy. I want to focus my research topic around Industry 4.0; particularly, the value machine data collection/analytics delivers and the type of culture required for such change.

I feel my topic is rather broad, and academic research already exists around such topics. What would you recommend? Would you be able to suggest more specific topics in the area I wish to research?

Thank you in advance.

What software/tools (commercially or others ) are you know for cloud manufacturing?

I want to find an effective way to bring production service providers together in one platform (Cloud Manufacturing).

The research domain can be general or restricted by one or some domain.

Technological advances that you believe will make a real difference in solving important problems in 2020? .

I am currently in my final semester in my Bachelors. I am looking for a topic related to Manufacturing and Production engineering. I am thinking of something related to Risk Assessment of Production lines, but any ideas in 3d printing, automation of production/manufacturing are also welcomed.

National innovation systems play an important role in countries’ efforts to catch up with technological advances. As the global marketplace becomes increasingly liberalized and competitive, countries need to upgrade their technological capabilities. Any thoughts on how to Strengthen national systems of innovation

What are the sustainable goods/food manufacturing/processing model used by industrial world keeping Industry 4.0 in mind?

Over the past years, the world has been experiencing a rapid growth of new advanced manufacturing technologies such as; 3D printing (3DP), also recognized as Additive Manufacturing (AM), which engenders new opportunities for the transformation of manufacturing processes throughout the supply chain.

Nowadays there is a spark of interest in the types of energy and materials that should be developed in the future. There is developed an extensive discussion upon the future of these two types. However, little attention has been paid to the future of resources. Taking into consideration the latest achievements in industry and manufacturing, such as the 3D printers and 3D scanners, the question is whether these technological advancements' spur will determine the future of resources stocks, including the feeding behavior for human, livestock, and global famine? The future of resources should be merely a nutrition-concerned issue, or a socio-cultural sensitive one?

Which are the main Carbon Capture and Storage (CCS) strategies? Are there technological constraints upon them -such as technological immaturity issues- or regional specifications (being differentiated by developing or developed economies)? Are there (direct or indirect) energy gains?

Injection molding offers high quality and production rate of many geometrically complex shapes. One of the drawbacks of this method is the relatively higher cost of the material compared to the similar material produced through compression molding. There are also limitations regarding the choice of high-end injection molded material.

BMC (Bulk Moulding Compound) materials may be used in injection and/or compression molding methods. However, there are many BMC materials from well-known suppliers which are not tested for injection molding purposes. What are the main characteristics that give a material advantages in injection molding method?

Please let me know the characteristics of MEGA Projects.

Which type of projects is termed BIG RESEARCH PROJECT or MEGA project?

New materials are revolutionizing sectors as diverse as construction and communications. Advanced manufacturing technologies have altered long-standing patterns of productivity and employment. Improved air and sea transportation has greatly accelerated the worldwide flow of people and goods.

All this has both created and mandated greater interdependence among firms and nations. The rapid rate of innovation and the dynamics of technology flows mean that comparative advantage is short-lived. To maximize returns, arrangements such as transnational mergers and shared production agreements are sought to bring together partners with complementary interests and strengths. This permits both developed and developing countries to harness technology more efficiently, with the expectation of creating higher standards of living for all involved. Our results indicate that global distribution diminishes the chance of completing tasks on time and degrades subsystem design quality. can architectural innovation destroys the usefulness of a firm's firm's architectural knowledge but preserves the usefulness of its knowledge about the product's components?

Technological Invention has made our life easy, but these inventions are quickly eating up so many common man's jobs, what is way forward?

Nowadays people buy very expensive smartphone they buy such mobiles for necessity or as a style?

For a student research assignment/project myself and a team are tasked with creating a railway vehicle that must brake (mechanically) at high speeds. Our brake housing is to be made from carbon fiber and the brakes are to be attached to this housing, while facing inward to the rail which they will act upon. What methods can be used when joining mechanical metal parts to carbon fiber?

From your answer and expertise I want to know does it worth to go through process optimization or not.

Please feel free to share any areas relate to the Innovation through technologies.

What do you understand the phase "Innovation through technologies."

Share the Innovation through technologies in your workplace etc

Any related articles etc

Thanks. 

like something new in the field of manufacturing products to reduce costing and improve more by designing and others factor involved..??

Hi everyone, I need some past studies that explained advanced manufacturing technology AMT as mediation.

I am trying to develop a stirling engine and I intend to incorporate a cylindrical cam with a translation follower to reduce the lateral forces.

is it feasible?

what literature can i consult?

By combining stochastic frontier and copula function it's possible to relax two main strict conditions of standard SFA. These regard the normal distribution and the independence of inefficiency and the pure randomness component.It is possibile to prove that if these two components are dependent and follow distributions other than normal, then the estimated efficiency scores are highly biased, thereby implying that past efficiency literature might be wrong.

If you are using (or if you have used) standard frontier approach (e.g., à la Battesi and Coelli 1992 and 1995) you can provide us your dataset and write a joint paper based on the re-specification of your model.

Data may refer to any sector.

Comments welcome

I have paraffin pellets (size around 2 mm) and I need to grind them to microsize (10-100 micrometers). I search for a easy and efficient way to grind them.

hi all....

is it possible to conduct an analysis for FSW in ansys workbench / APDL

tool - rotating + up & down movement

workpiece - stationary

the optical diffraction limit follows the Abbe's formula: d=wavelength/(2*n*sin2theta)

Some researchers have experimented with tool diameter to shoulder diameter ratio, but is there any standard relationship between pin length and pin diameter in FSW tool

in RTM process core-material , generally made of foam, is  sandwiched between the resin and the fiber.

what if the part/blade is too thin, and no extra space is available to place the core ?

is it possible if  we replace the core with some extra layer of bidirectional fiber glass mat and chopped strand mat? 

What are the most important competitive capabilities of a manufacturing company for evaluating its performance? For example, the utilization of advanced manufacturing technologies.

Component manufacturing route selection tools 

What software or other tools are you using/aware of (commercially available or otherwise) to assist in the decision making for choosing how to manufacture (particularly metal) components ? I'd like to find a methodical way to identify the technically most appropriate but also most cost effective method (e.g. considering part size, tolerance specifications, material/performance requirements etc. etc.). I'd like to be able to consider more recent approaches such as :

3D Metal Printing (Laser Sintering or Electron Beam melting)

Metal Injection Moulding (MIM)

Metal Die Casting / Investment Casting (potentially using 3D printing to create IC patterns to avoid high tooling cost)

Traditional CNC Machining

Sheet Metal fabrication

Any thoughts ?

What kind of qualitative research method would you suggest for evaluating competitive capabilities and performance of the companies before and after adopting AMTs (Advanced Manufacturing Technologies)?

Some companies are very cautious to accept using AMTs at their companies. There is no doubt that using new AMTs has many benefits for firms, but what barriers are there for using AMTs and why do some firms fail to apply these technologies? What are the critical factors of failure in adopting AMTs?

It seems the capillary model of pores formation in deep penetration welding makes it possible to predict the pore’s frequency and their volume depending on the welding speed. The predictions are in a good agreement with two experiments that have been found in the published literature. According to these experiments, there exists some value of welding speed, at which the pore formation stops. The prediction of this value may be useful for the preliminary designing of welding technology.

I am very interested in expanding the verification framework and also in testing of this model in laser welding.