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From the planting of the seed to the end of the manufacturing process, Portuguese cork makes for authentic, high quality and eco-efficient cork products that are created with true craftsmanship and care.
Io Aircraft - www.ioaircraft.com
Drew Blair
www.linkedin.com/in/drew-b-25485312/
io aircraft, phantom express, phantom works, boeing phantom works, lockheed skunk works, hypersonic weapon, hypersonic missile, scramjet missile, scramjet engineering, scramjet physics, boost glide, tactical glide vehicle, Boeing XS-1, htv, Air-Launched Rapid Response Weapon, (ARRW), hypersonic tactical vehicle, hypersonic plane, hypersonic aircraft, space plane, scramjet, turbine based combined cycle, ramjet, dual mode ramjet, darpa, onr, navair, afrl, air force research lab, defense science, missile defense agency, aerospike,
Advanced Additive Manufacturing for Hypersonic Aircraft
Utilizing new methods of fabrication and construction, make it possible to use additive manufacturing, dramatically reducing the time and costs of producing hypersonic platforms from missiles, aircraft, and space capable craft. Instead of aircraft being produced in piece, then bolted together; small platforms can be produced as a single unit and large platforms can be produces in large section and mated without bolting. These techniques include using exotic materials and advanced assembly processes, with an end result of streamlining the production costs and time for hypersonic aircraft; reducing months of assembly to weeks. Overall, this process greatly reduced the cost for producing hypersonic platforms. Even to such an extent that a Hellfire missile costs apx $100,000 but by utilizing our technologies, replacing it with a Mach 8-10 hypersonic missile of our physics/engineering and that missile would cost roughly $75,000 each delivered.
Materials used for these manufacturing processes are not disclosed, but overall, provides a foundation for extremely high stresses and thermodynamics, ideal for hypersonic platforms. This specific methodology and materials applications is many decades ahead of all known programs. Even to the extend of normalized space flight and re-entry, without concern of thermodynamic failure.
*Note, most entities that are experimenting with additive manufacturing for hypersonic aircraft, this makes it mainstream and standardized processes, which also applies for mass production.
What would normally be measured in years and perhaps a decade to go from drawing board to test flights, is reduced to singular months and ready for production within a year maximum.
Unified Turbine Based Combined Cycle (U-TBCC)
To date, the closest that NASA and industry have achieved for turbine based aircraft to fly at hypersonic velocities is by mounting a turbine into an aircraft and sharing the inlet with a scramjet or rocket based motor. Reaction Engines Sabre is not able to achieve hypersonic velocities and can only transition into a non air breathing rocket for beyond Mach 4.5
However, utilizing Unified Turbine Based Combine Cycle also known as U-TBCC, the two separate platforms are able to share a common inlet and the dual mode ramjet/scramjet is contained within the engine itself, which allows for a much smaller airframe footprint, thus engingeers are able to then design much higher performance aerial platforms for hypersonic flight, including the ability for constructing true single stage to orbit aircraft by utilizing a modification/version that allows for transition to outside atmosphere propulsion without any other propulsion platforms within the aircraft. By transitioning and developing aircraft to use Unified Turbine Based Combined Cycle, this propulsion system opens up new options to replace that airframe deficit for increased fuel capacity and/or payload.
Enhanced Dynamic Cavitation
Dramatically Increasing the efficiency of fuel air mixture for combustion processes at hypersonic velocities within scramjet propulsion platforms. The aspects of these processes are non disclosable.
Dynamic Scramjet Ignition Processes
For optimal scramjet ignition, a process known as Self Start is sought after, but in many cases if the platform becomes out of attitude, the scramjet will ignite. We have already solved this problem which as a result, a scramjet propulsion system can ignite at lower velocities, high velocities, at optimal attitude or not optimal attitude. It doesn't matter, it will ignite anyways at the proper point for maximum thrust capabilities at hypersonic velocities.
Hydrogen vs Kerosene Fuel Sources
Kerosene is an easy fuel to work with, and most western nations developing scramjet platforms use Kerosene for that fact. However, while kerosene has better thermal properties then Hydrogen, Hydrogen is a far superior fuel source in scramjet propulsion flight, do it having a much higher efficiency capability. Because of this aspect, in conjunction with our developments, it allows for a MUCH increased fuel to air mixture, combustion, thrust; and ability for higher speeds; instead of very low hypersonic velocities in the Mach 5-6 range. Instead, Mach 8-10 range, while we have begun developing hypersonic capabilities to exceed 15 in atmosphere within less then 5 years.
Conforming High Pressure Tank Technology for CNG and H2.
As most know in hypersonics, Hydrogen is a superior fuel source, but due to the storage abilities, can only be stored in cylinders thus much less fuel supply. Not anymore, we developed conforming high pressure storage technology for use in aerospace, automotive sectors, maritime, etc; which means any overall shape required for 8,000+ PSI CNG or Hydrogen. For hypersonic platforms, this means the ability to store a much larger volume of hydrogen vs cylinders.
As an example, X-43 flown by Nasa which flew at Mach 9.97. The fuel source was Hydrogen, which is extremely more volatile and combustible then kerosene (JP-7), via a cylinder in the main body. If it had used our technology, that entire section of the airframe would had been an 8,000 PSI H2 tank, which would had yielded 5-6 times the capacity. While the X-43 flew 11 seconds under power at Mach 9.97, at 6 times the fuel capacity would had yielded apx 66 seconds of fuel under power at Mach 9.97. If it had flew slower, around Mach 6, same principles applied would had yielded apx 500 seconds of fuel supply under power (slower speeds required less energy to maintain).
Enhanced Fuel Mixture During Shock Train Interaction
Normally, fuel injection is conducted at the correct insertion point within the shock train for maximum burn/combustion. Our methodologies differ, since almost half the fuel injection is conducted PRE shock train within the isolator, so at the point of isolator injection the fuel enhances the combustion process, which then requires less fuel injection to reach the same level of thrust capabilities.
Improved Bow Shock Interaction
Smoother interaction at hypersonic velocities and mitigating heat/stresses for beyond Mach 6 thermodynamics, which extraordinarily improves Type 3, 4, and 5 shock interaction.
6,000+ Fahrenheit Thermal Resistance
To date, the maximum thermal resistance was tested at AFRL in the spring of 2018, which resulted in a 3,200F thermal resistance for a short duration. This technology, allows for normalized hypersonic thermal resistance of 3,000-3,500F sustained, and up to 6,500F resistance for short endurance, ie 90 seconds or less. 10-20 minute resistance estimate approximately 4,500F +/- 200F.
*** This technology advancement also applies to Aerospike rocket engines, in which it is common for Aerospike's to exceed 4,500-5,000F temperatures, which results in the melting of the reversed bell housing. That melting no longer ocurrs, providing for stable combustion to ocurr for the entire flight envelope
Scramjet Propulsion Side Wall Cooling
With old technologies, side wall cooling is required for hypersonic flight and scramjet propulsion systems, otherwise the isolator and combustion regions of a scramjet would melt, even using advanced ablatives and ceramics, due to their inability to cope with very high temperatures. Using technology we have developed for very high thermodynamics and high stresses, side wall cooling is no longer required, thus removing that variable from the design process and focusing on improved ignition processes and increasing net thrust values.
Lower Threshold for Hypersonic Ignition
Active and adaptive flight dynamics, resulting in the ability for scramjet ignition at a much lower velocity, ie within ramjet envelope, between Mach 2-4, and seamless transition from supersonic to hypersonic flight, ie supersonic ramjet (scramjet). This active and dynamic aspect, has a wide variety of parameters for many flight dynamics, velocities, and altitudes; which means platforms no longer need to be engineered for specific altitude ranges or preset velocities, but those parameters can then be selected during launch configuration and are able to adapt actively in flight.
Dramatically Improved Maneuvering Capabilities at Hypersonic Velocities
Hypersonic vehicles, like their less technologically advanced brethren, use large actuator and the developers hope those controls surfaces do not disintegrate in flight. In reality, it is like rolling the dice, they may or may not survive, hence another reason why the attempt to keep velocities to Mach 6 or below. We have shrunken down control actuators while almost doubling torque and response capabilities specifically for hypersonic dynamics and extreme stresses involved, which makes it possible for maximum input authority for Mach 10 and beyond.
Paradigm Shift in Control Surface Methodologies, Increasing Control Authority (Internal Mechanical Applications)
To date, most control surfaces for hypersonic missile platforms still use fins, similar to lower speed conventional missiles, and some using ducted fins. This is mostly due to lack of comprehension of hypersonic velocities in their own favor. Instead, the body itself incorporates those control surfaces, greatly enhancing the airframe strength, opening up more space for hardware and fuel capacity; while simultaneously enhancing the platforms maneuvering capabilities.
A scramjet missile can then fly like conventional missile platforms, and not straight and level at high altitudes, losing velocity on it's decent trajectory to target. Another added benefit to this aspect, is the ability to extend range greatly, so if anyone elses hypersonic missile platform were developed for 400 mile range, falling out of the sky due to lack of glide capabilities; our platforms can easily reach 600+ miles, with minimal glide deceleration.
The Kart Factory Tour at the University LIUC Cattaneo in Varese, Italy provided ITA Students and Faculty the opportunity to interact with Italian innovation in manufacturing processes.
Red Hue clothing is a contemporary clothing line, diverse in style and fit. Inspired by real women, Red Hue clothing offers quality and fashion in one. Modern with a retro feel, Red Hue strives to be timeless and ageless. We are proud to say our brand is 100% sweatshop free! The clothing is manufactured in an atelier styled workshop in El Salvador,designer Silvia Huezo’s home country, where hardworking hands hand cut and assemble the garments. Our manufacturing process is closely monitored to ensure the just treatment of those who work so hard on the pretty clothes we wear.
The Kart Factory Tour at the University LIUC Cattaneo in Varese, Italy provided ITA Students and Faculty the opportunity to interact with Italian innovation in manufacturing processes.
The Kart Factory Tour at the University LIUC Cattaneo in Varese, Italy provided ITA Students and Faculty the opportunity to interact with Italian innovation in manufacturing processes.
Laser cut aluminium
Paused at 10%
"For the Olympic torch we created a curvilinear form from aluminium sheets making the most of the material's strong and light-weight properties. Paused as a flat sheet, the outline and perforated pattern make its final form instantly recognisable."
- Edward & Jay
Part of ‘In The Making’ exhibition - more than twenty objects during the manufacturing stage of their construction...curated by Edward Barber and Jay Osgerby, the design duo who are perhaps best known for designing the 2012 London Olympic torch.
The pair commented on the exhibition “‘We have always been fascinated by the making process as it is an integral part of our work. We have curated an exhibition that will provide a platform to capture and reveal a frozen moment in the manufacturing process and unveils an everyday object in its unfinished state. Often the object is as beautiful, if not more so, than the finished product!”
John Allison is William F. Hosford Professor of Materials Science and Engineering at the University of Michigan and a National Academy of Engineering member.
His major research interest is in understanding the inter-relationships between processing, alloying, microstructure and properties in metallic materials – and in incorporating this knowledge into computational tools for use in research, education and engineering. An important part of his research is development of Integrated Computational Materials Engineering (ICME) tools – and thus collaborations with other computational and experimental groups are an essential element of my work. Central to my research are investigations on the evolution of microstructures - current examples include precipitate evolution, recrystallization and grain growth and texture development in magnesium, aluminum and titanium alloys. He is also interested in mechanical behavior of these materials, with an emphasis on development of mechanistic and phenomenological understanding of the influence of microstructure on properties such as strength, ductility and fatigue resistance.
Allison comes to the University from Ford Motor Company, where he was a senior technical leader in the Research and Advanced Engineering organization. Over the twenty seven years of his tenure at Ford, he led teams developing integrated computational materials engineering, or ICME, methods. He helped develop advanced computer software that simulates manufacturing processes and predicts the influence of the manufacturing process on material properties. The output of these models is then coupled with product performance models to predict how manufactured components will behave during service.
July 11, 2023.
Photo by Marcin Szczepanski/Lead Multimedia Storyteller, Michigan Engineering
Alan Colclough "One day a caster came to me and said - Just look at what i have found in the skip - being thrown away - I was at the Alsager site then - Well it was a box of photos of the people and the manufacturing processes - at the factory that now is no longer - yes the one just gone up in smoke-
I said - I will keep them and may be one day people would want to see them - well i think now is the time -If you worked there and like me are so sad - that it as gone - maybe you are on one of the many photos i have - all are showing people doing a part of the casting process and dipping etc - you like me may have aged but - to us the photos are priceless
mytunstall.co.uk/2012/12/fire-old-twyfords-factory-stoke-...
TOMYTEC series. The rear spoiler had to be installed. The issue I have with these is various parts have to added to some of these cars. These parts are small and tedious and difficult to install. I don't understand why these "add-on" parts couldn't be installed during the manufacturing process.
სამხედრო სამეცნიერო-ტექნიკური ცენტრი ,,დელტა’’ 2005 წელს პრეზიდენტის ბრძანებულების საფუძველზე შეიქმნა. დღესდღეობით, საწარმოში 6000 ადამიანია დასაქმებული, რომელთა საშუალო ხელფასი 1000 ლარზე მეტია. ,,დელტას’’ თანამშრომლები სხვადასხვა სოციალური ბენეფიტებით სარგებლობენ.
,,დელტაში’’ გაერთიანებულია რამდენიმე მსხვილი საწარმო, მათ შორის ,,თბილავიამშენი’’, რომელიც ქართულ იარაღსა და საბრძოლო ტექნიკას აწარმოებს. საწარმოში 15-მდე სახეობის იარაღი და სამხედრო აღჭურვილობა მზადდება.
,,დელტაში’’ იწარმოება საქართველოს შეიარაღებული ძალების სიამაყე მუხლუხებიანი ქვეითთა საბრძოლო მანქანა ,,ლაზიკა’’. მხოლოდ ,,ლაზიკას’’ წარმოებაზე ასამდე სპეციალისტია დასაქმებული. მთლიანობაში, ქართული იარაღისა და ტექნიკის წარმოებაზე 1500 ადამიანი მუშაობს.
,,დელტაშია’’ ასევე დამზადებული ჯავშანმანქანა ,,დიდგორი’’, ზალპური ცეცხლის რეაქტიული სისტემა და უპილოტო საჰაერო აპარატი.
იარაღისა და სამხედრო ტექნიკის წარმოების დაწყებამდე, ტარდება კვლევები და ნიმუშების მეცნიერულ დონეზე დამუშვება ხდება. ,,დელტაში’’ გაერთიანებულია 6 სამეცნიერო-კვლევითი ინსტიტუტი, სადაც სამოქალაქო და სამხედრო კვლევები მიმდინარეობს. ფიზიკის, მანქანათა მექანიკის, სამთო, მეტალურგიის, ოპტიკისა და ნანოტექნოლოგიების ინსტიტუტებში დასაქმებულ 400-ზე მეტ მეცნიერს საკუთარი წვლილი შეაქვს ქართული იარაღის წარმოების განვითარებაში.
როგორც ,,დელტაში’’ იარაღის წარმოებაზე დასაქმებული ადამიანები აცხადებენ, მათთვის დიდი პატივია საკუთარი წვლილი შეიტანონ ქვეყნის შეიარაღებული ძალების განვითარების პროცესში და ამავდროულად, საკუთარი საქმიანობით სარგებელი მოუტანონ ოჯახებს.
Military Scientific-Technical Centre “Delta” of Ministry of Defence was established in 2005 on the basis of the Decree of the Georgian president. Currently, the number of enterprise personnel is 6000, whose average salary amounts to over GEL 1000. “Delta” employees also enjoy different social benefits.
“Delta” incorporates several large enterprises, including “Tbilaviamsheni”, which manufactures Georgian armament and combat technique. The enterprise works on production of around 15 series of weaponry and military equipment.
“Delta” produces the tracked infantry fighting vehicle “Lazika”, which is the Georgian pride. 100 specialists are employed in “Lazika”`s manufacturing process. In total, 1500 personnel are involved in the production of the Georgian armament.
The other Georgian armament- multiple rocket launcher system, armored infantry vehicle “Didgori” and unmanned aerial system are also the products of “Delta”.
Before launching production of weaponry and military technique, scientific researches and processing of models are conducted in the enterprise. “Delta” incorporates 6 scientific-research institutes, which carry out civil-military research activities. More than 400 scientists working in the institutes of Physics, Auto Mechanic, Mines, Metallurgy, Optics and Nanotechnology provide their share of contribution in the national military industry development.
According to the “Delta” employees, it is a great honor for them to take part in the development of armed forces and to bring benefit to the Georgian families by their activities.
Lisa Glover '13 '14G made this velociraptor costume for Halloween last year as a project for her Technical Entrepreneurship class. She went on to launch a wildly successful Kickstarter campaign based on the idea that raised over $100,000.
Universal Trailer Corporation Plant Opening Event on March 24, 2017 in Bristol, Indiana. On Friday, March 24, 2017, the Ribbon Cutting Celebration for Universal Trailer Corporation new $25 million, 200,000 sq. feet advanced technology cargo trailer manufacturing facility was held in Bristol, Indiana. The plant is located on 43 acres at the corner of C.R. 4 and Blakesley Parkway (C.R. 29), a half mile east of S.R. 15 on C.R. 4 north of the Indiana Toll Road. 200 new hires are expected over the next 18 months. The plant has new, automotive-style robotic manufacturing capabilities unheard of in the cargo trailer industry. Trailer “kits” will be manufactured here for other Universal Trailer plants across the country. The Plant is designed to be employee-friendly with an emphasis on employee empowerment to assure an efficient and quality manufacturing process. Plant tours were also held. With its innovative engineering and worker empowerment, the location of this new trailer technology in Elkhart County was the result of many public and private entities working together to provide such assistance as annexation for municipal services, tax incentives and industrial revenue bonds, among other aid. Just the Facts: Speakers: Jeff Howes, Universal VP Marketing; Universal CEO & President, Terry Carlson. Op Mgr. Keith Shockey; Indiana EDC President, Elaine Bedel; State Senator Blake Doriot; Elkhart Co. Commissioner, Suzie Weirick; Bristol Town Council President, Ron Norman; Unable to attend, 2nd Dist. Congresswoman, Jackie Walorski, sent a video of congratulations.
From the planting of the seed to the end of the manufacturing process, Portuguese cork makes for authentic, high quality and eco-efficient cork products that are created with true craftsmanship and care.
Governor Kay Ivey participated in the Grand Opening of Winkelmann Flowform Technology, LP. Thursday October 3, 2019 in Auburn, Ala. Winkelmann Flowform Technology, LP. specializes in high-precision, high-strength, thin wall roto-symmetrical parts from metals such as titanium and steel. Through technical engineering and in-house manufacturing processes, the company seeks to provide high-quality, precise, near net shape designs for use in the Aerospace and defense industries. The project involves the creation of 50 new jobs and a $12 million investment in the Auburn metal forming operation. (Governor's Office/Hal Yeager)
From the planting of the seed to the end of the manufacturing process,Portuguese cork makes for authentic, high quality and eco-efficient cork products that are created with true craftsmanship and care.
We, Ashwin Plastics, initiated our momentous lifework as producers and suppliers of plastic packaging products such as Laminated Pouches, Laminated Rolls, BOPP bags, BOPP rolls, HM bags and Rolls, PP Bags and Rolls etc. Offer diverse range of packaging products to meet varied requirements. Follow high quality parameters in business operation, manufacturing process and client servicing. Very particular about not using plastics and laminates that are safe and non-hazardous
Celia's book Celia Birtwell will be out in September 2011
Celia was a fellow judge for the GoodWeave Student Rug Design 2011
competition
Other judges included the features editor of Cover magazine Lucy Upward,
Richard and Lucy Meager from Jacaranda Carpets and Paul Vowles from
WovenGround, whose lovely carpet store is on the King's Road, Chelsea.
The winner was Tracy Bidwell, a final year student from Cleveland College of
Art and Design studying Textiles and Surface Design.
We, the judges, loved the "Klimt-like" quality of her design...as in Gustav!
Here are some notes on the competition from the organizers:
"Developed to encourage young designers to learn about the commercial world
of rug design and ethical manufacturing, the 2011 Student Rug Design
Competition was entered by post and undergraduate design students from
across the UK who submitted designs for a hand-knotted silk or wool rug. As
GoodWeave is an international organisation that seeks to end exploitative
child labour in the rug industry of South Asia and fund education and
rehabilitation for thousands of rescued children, the competition was set up
to educate students about the rug manufacturing process.
The 2011 design brief - Natural Origins encouraged the students to take
inspiration from natural forms, structures and textures and draw upon a
colour palette of tones such as peacock blue and burnt orange."
The calibre of entries was so high that we, the judges, awarded a second
prize winner: Eve Finlayson, a second year student from Leeds College of
Art, studying printed textiles and surface pattern design. This will also be
made up into a rug.
Love London, a book of around 180 photographs taken by Barbara Chandler over 25 years will be published on 2 August 2011. A great number of pictures were taken within the last year especially for the book. The pictures are matched up with over 100 quotations from a variety of sources, from 15th century poetry to modern blogs. The publisher is Batsford and the price £9.95
From the planting of the seed to the end of the manufacturing process, Portuguese cork makes for authentic, high quality and eco-efficient cork products that are created with true craftsmanship and care.
The Kart Factory Tour at the University LIUC Cattaneo in Varese, Italy provided ITA Students and Faculty the opportunity to interact with Italian innovation in manufacturing processes.
The Kart Factory Tour at the University LIUC Cattaneo in Varese, Italy provided ITA Students and Faculty the opportunity to interact with Italian innovation in manufacturing processes.
The Kart Factory Tour at the University LIUC Cattaneo in Varese, Italy provided ITA Students and Faculty the opportunity to interact with Italian innovation in manufacturing processes.
ControlTek has just added two new Heller 1809 MKIII Reflow Ovens and a 3 chamber Trident LD Automatic Defluxing system to our production facility. The new equipment provides additional speed and flexibility during changeovers as well as enhanced product reliability from contaminant-free manufacturing processes.
First Developed for the Japan Ground Self-Defense force, the New TYPE 89 From Tokyo Marui has the latest series 8 gearbox with a new 3 burst shot mechanism. It also comes with a metal receiver and barrel which make the gun extremely realistic. Marui also uses a specialized manufacturing process which makes the composite look virtually identical to the real steel.
At the Cup Noodles Museum, you can learn the secret of cup noodle and even have the opportunity to make one-of-a-kind ramen yourself.
Japanese food company Nissin operates this unique museum for Ramen.
The museum shows the 40 year product history as well as the founder, Mr. Ando Momofuku's creativity, by exhibiting 3,000 kinds of cup noodle packages.
They also recreate Mr. Ando Momofuku's humble research facility.
At "My Cup Noodle Factory," you can make your own cup noodle out of 5,460 soup base / topping combinations.
There is also "Cup Noodles Park", a playground for kids where they can experience the manufacturing process of Cup Noodle.
There is a "Chicken Ramen Factory" where you can make Chicken Ramen by hand, starting with kneading, spreading, and steaming the wheat flour and then drying it with the hot oil drying method. After experiencing the process that led to the invention of the world's first instant ramen, you can take your freshly made ramen with you and enjoy its delicious taste at home.
And of course you can enjoy global varieties of noodles in the contemporarily designed museum restaurant!
Fresno State Industrial Technology Industrial Manufacturing Processes Class - Professor Don Austin, Jordan College of Agricultural Sciences and Technology, photo by Geoff Thurner, March 29, 2016, Copyright 2016.
From the planting of the seed to the end of the manufacturing process, Portuguese cork makes for authentic, high quality and eco-efficient cork products that are created with true craftsmanship and care.
The Kart Factory Tour at the University LIUC Cattaneo in Varese, Italy provided ITA Students and Faculty the opportunity to interact with Italian innovation in manufacturing processes.
Museum of Coca Cola memorabilia and displays of manufacturing process. The last room is a tasting room for Coke's worldwide products
Clay model for the Ferrari J50, 2015
Ferrari: Under the Skin (November 2017 to April 2018)
In an Italy ravaged by the Second World War, Enzo Ferrari and a small team decided to create the perfect racing machine. The exhibition will explore Ferrari’s powerful personality, the design and manufacturing process, the famous clientele and the future of the luxury car brand.
From the very first Ferrari to Michael Schumacher’s winning Formula One car and the newest hybrid model, the exhibition features rare cars and memorabilia displayed in public for the first time. Discover the Ferrari experience through original hand-drawn sketches, sculpture-like models and engines, alongside films and interviews telling one of the great design stories of all time.
[Design Museum]
In the Design Museum
Lustigear is a global platform for personalized products such as jacket, jean, vest, long coat and overcoat in the (leather, wool, cotton, denim, suede, polyester and fur shearling). We are the go to-place for anyone looking to realize their creative ideas on quality material. We value freedom of expression, whether it’s with your own designs or those made available in the fashion industry. Moreover, it is a premium service that defines our existence: Emerging Youtube stars and many large companies and brands are among our esteemed customers. Our top-quality manufacturing process serves in a way that customers must satisfy their desire looks.
The Kart Factory Tour at the University LIUC Cattaneo in Varese, Italy provided ITA Students and Faculty the opportunity to interact with Italian innovation in manufacturing processes.
The pioneer of adhesive bonded fasteners for industry, Click Bond supplies leading OEMs in the aerospace, defense, naval, energy, and transportation industries with innovative assembly solutions tailored to address their particular engineering challenges. They assist major vehicle designers, manufacturers, and maintainers improve structural properties and performance, extend product life, and streamline their manufacturing processes.
Click Bond is 325 people strong and growing as we expand our reach to deliver solutions in new geographies and new industries. Family-owned and headquartered in Carson City, Nevada, with additional manufacturing facilities in Watertown, Connecticut, Click Bond was established in 1984 to manufacture and market the Click Bond product line developed by Physical Systems, Inc. The Click Bond division was incorporated in Nevada in 1987 as Click Bond, Inc. Since the inception of the Click Bond product line, 30 United States Patents and many International patents have been issued covering Click Bond products. Another United States patent will issue soon and three more are in the application process.
In keeping with the original vision of Physical Systems, research and development is still the driving force behind Click Bond and its products.
Testo 300 Flue Gas Analyser - Testo has been the market leader for flue gas measurement and analysis for last 40 years now. Flue gas analyser from testo is used in several manufacturing processes in the industry for emission control and optimization of combustion systems, heat systems or boilers. Flue gas measurement helps to calculate the system performance, emission limits and save cost & fuel both. Testo 300 flue gas analyser is the smartest innovation in the flue gas measurement technology that combines intuitive touch-operation with robust construction and highly efficient documentation. Testo 300 gas analyser has large 5” Smart-Touch display that allows intuitive operation just like a smartphone along with measurement values display & data storage. With advanced long-life sensors, the testo instrument is very robust and facilitates the measurements for Flue gas, draught, CO, smoke count, differential pressure, differential temperature, tightness testing or O2 air input. It comes in several kit options and the flue gas monitoring instrument testo 300 has 2 to 4 years warranty. With so many versatile features and areas of application, one can reinvent the flue gas measurement experience by using the testo 300 truly smart flue gas analyser. Paperwork was yesterday, user’s own comments can be easily included in the report with customer’s electronic signature & data in the instrument. The video highlights some features and advantages of testo flue gas analyser for easy operation of emission systems:
- Clearly structured measurement menus for all relevant measurements
- Easy on-site report generation & email option with testo gas analyser
- Save PDF measurement reports directly in the instrument
- Integrated Bluetooth® interface & immediate printout of the measuring values
- Integrated, extra-strong magnets at the back for easy fixing
Learn more at:
www.testo.com/en-IN/products/testo-300
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From the planting of the seed to the end of the manufacturing process, Portuguese cork makes for authentic, high quality and eco-efficient cork products that are created with true craftsmanship and care.