BEGIN:VCALENDAR VERSION:2.0 PRODID:IEEE vTools.Events//EN CALSCALE:GREGORIAN BEGIN:VTIMEZONE TZID:Asia/Kolkata BEGIN:STANDARD DTSTART:19451014T230000 TZOFFSETFROM:+0630 TZOFFSETTO:+0530 TZNAME:IST END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTAMP:20231011T162141Z UID:A0E4FEE0-7E3A-41B7-A7DC-00C54706226D DTSTART;TZID=Asia/Kolkata:20231003T100000 DTEND;TZID=Asia/Kolkata:20231003T170000 DESCRIPTION:An industry visit\n\nRegistration is mandatory and the visitors have to plan their own tranport facility till the gate of ARCI and the vi sit starts sharp at 10:00AM..\n\nFor any queries contact :\n\nDr. Tripura Pidikiti - 9440163204\n\nDr. Hima Bindu: 6304846481\n\nMr. MVK Vamsi - 863 9275637\n\nThe objective of the visit is to induce and inculcate:\n\n- The advancements of the Powder Metallurgy and New Materials to the students.\ n- Development and advancements in high-performance materials and processe s for niche markets\n- View of development and demonstration of technologi es at prototype levels.\n\nDescription of the Event:\n\nThe International Advanced Research Centre for Powder Metallurgy and New Materials[ARCI] is a place that believes “Innovation is Power”. This 95 acres vast instit ute was established in the year 1996-97 under the autonomous research and development center of the Department of Science and Technology[DST]. What happens in ARCI is a mere vast process of merging materials and electronic s. In ARCI they follow development\, demonstration\, transfer\, solutions\ , refinement\, and repeatability.\n\nStarting from the basic waterfall mod el ARCI believes in the improvement of materials in the fields of ceramic processing\, nanotechnology\, solar energy\, automotive\, and many more. T hey currently have three working groups namely aerospace\, sensor\, and bi omedical. ARCI is proud to announce its help in 40 startups\, 250+ climati c solutions\, and 125+ patents. Our journey with ARCI started with a semin ar at “GS Bhattacharyajee Seminar Hall” where we are introduced to the creation of technology transfer and commercialization models where resear ch is linked to transfer data\, an entire process from innovation to appli cations.\n\nTo start with the view we are introduced to Pulsed Electro Dec omposition[PED] where pulsating currents and power generators are used for the formation of coating on the materials. The same but with a different approach is the working of Detonation Liquid Spray Coating[DLC] which uses Oxy-acetylene\, Nitrogen\, and a powder coat mixture in 6 pulsating signa ls to apply the coat.\n\nDescribing the problem of electrodeposition: whic h is not possible on the metals. This is achieved using the Cold Gas Dynam ic Spray technique[CGDS]\, a spray technique for coating dissimilar metals .\n\nIn a detailed approach\, we have learned about the Electron-beam phys ical vapor deposition which uses thermal barrier coating like straws which can withstand the shots and deposit the coating on substrate material. To highlight the Cathodic Arc Physical Vapour Deposition[CAPVD] where the ar gon and metal are etched for the film deposition on the heated substrate a nd later cooled down. All this process goes on with high precautions and i n a vacuum chamber creating a suitable atmosphere.\n\nTo add they have als o been advanced in testing the materials that are coated and joined likely in ceramic processing\, dissimilar metals attachments resulting in better materials and metals for the technology usage. They even established sola r panels for the electrical usage and running of the institute. Each inver ter consists of 4 strings. Each string comprises 17 panels and each panel gives 300 watts that are arranged in 4 rows. Most of the power in ARCI is utilized using solar panels on working days and on off is supplied to the grid saving a lot of electricity bills in the institute.\n\nOne powerful e xample of the advancement of technology in ARCI is laser processing of mat erials where laser welding is used for the attachment of dissimilar metals with zero gap[180-micron acceptable range] with a speed of 3m/minute. The dilaser uses laser hardening for the deposition of powder which helps reu se the available parts in the machines for a long time. Likewise\, additiv e manufacturing works for 20-50 microns which involves manufacturing knee joint\, hyoid bone\, human jaw…etc can be done by 3D metal printing just to reduce the weight of the subject. In the traditional process\, a full metal block will be taken and it was cut into the req. subject which can c ause a lot of waste when compared to 3D metal printing which was a part of additive manufacturing. The best part of laser manufacturing is in usage of robots\, and CAD systems for the manufacturing of difficult and minute materials.\n\nAdding on with photoelectric coating which uses photons for the deposition of powder on the substrate material by creating a vacuum me dium which can be operated using a Programming Logic Controller(PLC). The final highlight and the best achievement of ARCI is the advancement and ma nufacturing of lithium-ion battery which is prepared in an incubator in th e amount of 50kg/day in the incubation center which uses Graphite as an an ode\, polymer as a divider\, and LFP(LiFePO4). In advancement\, they are u sing LTO(Li4Ti5O12)which is fast charging and is used in a wide range. On the other side\, they have developed a supercapacitor that does not use an y electrolyte and takes less than one minute to charge that can be connect ed in parallel to a lead-acid battery which can give more current during t imes like climbing a speed-bump. This advancement is used in Chinese Publi c Transportation making the supercapacitor to replace the lithium ion batt ery. The advancements in this field include sodium ion batteries and the p roduction of lithium-ion batteries at 150 kg/day.\n\nTransfer of technolog y to India and providing solutions to industrial and strategic sectors and human resource development are the views and objectives of ARCI making it heaven for the advancement of the materials with technology and a better future.\n\nAgenda: \nTo make students aware of : How multi Disciplinary Eq uipment in industries runs 2. Their maintenance 3. Trouble shooting 4. The y can have exposure to Industry\n\nBalapur P O\, Hyderabad\, Andhra Prades h\, India LOCATION:Balapur P O\, Hyderabad\, Andhra Pradesh\, India ORGANIZER:tripura.pidikiti@ieee.org SEQUENCE:5 SUMMARY:A visit to "International Advanced Research Centre for Powder Metal lurgy and New Materials" Balapur P.O.\, Hyderabad URL;VALUE=URI:https://events.vtools.ieee.org/m/376013 X-ALT-DESC:Description: <br /><p>An industry visit</p>\n<p>Registration is mandatory and the visitors have to plan their own tranport facility till t he gate of ARCI and the visit starts sharp at 10:00AM..</p>\n<p>For any qu eries contact :</p>\n<p>Dr. Tripura Pidikiti - 9440163204</p>\n<p>Dr. Hima Bindu: 6304846481</p>\n<p>Mr. MVK Vamsi - 8639275637</p>\n<p><span style= "font-weight: 400\;">The objective of the visit is to induce and inculcate :</span></p>\n<ol>\n<li style="font-weight: 400\;" aria-level="1"><span st yle="font-weight: 400\;">The advancements of the Powder Metallurgy and New Materials to the students.</span></li>\n<li style="font-weight: 400\;" ar ia-level="1"><span style="font-weight: 400\;">Development and advancements in high-performance materials and processes for niche markets</span></li> \n<li style="font-weight: 400\;" aria-level="1"><span style="font-weight: 400\;">View of development and demonstration of technologies at prototype levels.</span></li>\n</ol>\n<p><span style="font-weight: 400\;">Descriptio n of the Event:</span></p>\n<p><span style="font-weight: 400\;">The Intern ational Advanced Research Centre for Powder Metallurgy and New Materials[A RCI] is a place that believes&nbsp\; &ldquo\;Innovation is Power&rdquo\;. This 95 acres vast institute was established in the year 1996-97 under the autonomous research and development center of the Department of Science a nd Technology[DST]. What happens in ARCI is a mere vast process of merging materials and electronics. In ARCI they follow development\, demonstratio n\, transfer\, solutions\, refinement\, and repeatability.</span></p>\n<p> <span style="font-weight: 400\;">Starting from the basic waterfall model A RCI believes in the improvement of materials in the fields of ceramic proc essing\, nanotechnology\, solar energy\, automotive\, and many more. They currently have three working groups namely aerospace\, sensor\, and biomed ical. ARCI is proud to announce its help in 40 startups\, 250+ climatic so lutions\, and 125+ patents. Our journey with ARCI started with a seminar a t &ldquo\;GS Bhattacharyajee Seminar Hall&rdquo\; where we are introduced to the creation of technology transfer and commercialization models where research is linked to transfer data\, an entire process from innovation to applications.&nbsp\;</span></p>\n<p><span style="font-weight: 400\;">To s tart with the view we are introduced to Pulsed Electro Decomposition[PED] where pulsating currents and power generators are used for the formation o f coating on the materials. The same but with a different approach is the working of Detonation Liquid Spray Coating[DLC] which uses Oxy-acetylene\, Nitrogen\, and a powder coat mixture in 6 pulsating signals to apply the coat.&nbsp\;</span></p>\n<p><span style="font-weight: 400\;">Describing th e problem of electrodeposition: which is not possible on the metals. This is achieved using the Cold Gas Dynamic Spray technique[CGDS]\, a spray tec hnique for coating dissimilar metals.</span></p>\n<p><span style="font-wei ght: 400\;">In a detailed approach\, we have learned about the Electron-be am physical vapor deposition which uses thermal barrier coating like straw s which can withstand the shots and deposit the coating on substrate mater ial. To highlight the Cathodic Arc Physical Vapour Deposition[CAPVD] where the argon and metal are etched for the film deposition on the heated subs trate and later cooled down. All this process goes on with high precaution s and in a vacuum chamber creating a suitable atmosphere.</span></p>\n<p>< span style="font-weight: 400\;">&nbsp\;</span></p>\n<p><span style="font-w eight: 400\;">&nbsp\;</span></p>\n<p><span style="font-weight: 400\;">&nbs p\;</span></p>\n<p><span style="font-weight: 400\;">To add they have also been advanced in testing the materials that are coated and joined likely i n ceramic processing\, dissimilar metals attachments resulting in better m aterials and metals for the technology usage. They even established solar panels for the electrical usage and running of the institute. Each inverte r consists of 4 strings. Each string comprises 17 panels and each panel gi ves 300 watts that are arranged in 4 rows. Most of the power in ARCI is ut ilized using solar panels on working days and on off is supplied to the gr id saving a lot of electricity bills in the institute.&nbsp\;</span></p>\n <p><span style="font-weight: 400\;">One powerful example of the advancemen t of technology in ARCI is laser processing of materials where laser weldi ng is used for the attachment of dissimilar metals with zero gap[180-micro n acceptable range] with a speed of 3m/minute. The dilaser uses laser hard ening for the deposition of powder which helps reuse the available parts i n the machines for a long time. Likewise\, additive manufacturing works fo r 20-50 microns which involves manufacturing knee joint\, hyoid bone\, hum an jaw&hellip\;etc can be done by 3D metal printing just to reduce the wei ght of the subject. In the traditional process\, a full metal block will b e taken and it was cut into the req. subject which can cause a lot of wast e when compared to 3D metal printing which was a part of additive manufact uring. The best part of laser manufacturing is in usage of robots\, and CA D systems for the manufacturing of difficult and minute materials.&nbsp\;< /span></p>\n<p><span style="font-weight: 400\;">Adding on with photoelectr ic coating which uses photons for the deposition of powder on the substrat e material by creating a vacuum medium which can be operated using a Progr amming Logic Controller(PLC). The final highlight and the best achievement of ARCI is the advancement and manufacturing of lithium-ion battery which is prepared in an incubator in the amount of 50kg/day in the incubation c enter which uses Graphite as an anode\, polymer as a divider\, and LFP(LiF ePO4). In advancement\, they are using LTO(Li4Ti5O12)which is fast chargin g and is used in a wide range. On the other side\, they have developed a s upercapacitor that does not use any electrolyte and takes less than one mi nute to charge that can be connected in parallel to a lead-acid battery wh ich can give more current during times like climbing a speed-bump. This ad vancement is used in Chinese Public Transportation making the supercapacit or to replace the lithium ion battery. The advancements in this field incl ude sodium ion batteries and the production of lithium-ion batteries at 15 0 kg/day.</span></p>\n<p><span style="font-weight: 400\;">Transfer of tech nology to India and providing solutions to industrial and strategic sector s and human resource development are the views and objectives of ARCI maki ng it heaven for the advancement of the materials with technology and a be tter future.&nbsp\;&nbsp\;</span></p><br /><br />Agenda: <br /><p>To make students aware of : How multi Disciplinary Equipment in industries runs 2. Their maintenance 3. Trouble shooting 4. They can have exposure to Indust ry</p> END:VEVENT END:VCALENDAR