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Kartik Aaryan turns producer with Shehzada

Bollywood actor Kartik Aaryan is now one of the producers of his upcoming film Shehzada. According to sources, Shehzada encountered a financial crisis after which Kartik offered to let go of his remuneration. After Kartik’s gesture, the producers decided to get him on board as producer.Get more news about Android Board Producer,you can vist our website!

A source revealed, “It wasn’t planned or anything. It is early days for Kartik to turn producer. He has just started his career as an actor. But then, the unexpected happened. Shehzada encountered a financial crisis and if someone had not stepped in at that moment, the project would have been stalled.”

“Kartik offered to forego his remuneration. That’s when the other producers offered to have him on board as a producer,” added the source.Bhushan Kumar, Allu Arvind and Aman Gill are the co-producers of Shehzada, which is a remake of the 2020 Telugu film Ala Vaikunthapurramuloo, starring Allu Arjun in the lead role.

The filmmakers said, “It’s been quite a joyride making this film with Kartik as an actor, but now it’s become even more exciting having Kartik on board as one of the producers of the film. Like us Kartik too believes in wide-reaching films that appeal to youngsters, families and the masses. Shehzada is meant for all of them, hence it made natural sense for him to pick this film for his debut as producer.”

Kartik Aaryan had an eventful 2022 after his film Bhool Bhulaiyaa 2 became a blockbuster. The actor was recently seen in the movie Freddy. Apart from Shehzada, Kartik has Aashiqui 3, Kabir Khan’s untitled next and Satyaprem Ki Katha.


Things to know about fabric inspection machine

A fabric inspection machine comes with an illuminated panel, which measures and rotates fabric length. It also marks the distance between any defects on the well-inspected fabric roll. One major purpose of a good quality fabric inspection machine is to check the fabric’s tension, which is vital to know before spreading and cutting operations. These advanced machines for fabric inspection are helpful for fabric manufacturers to check the manufactured quality of fabrics. It even helps in additional quality checks before sending fabric materials for further processing.Get more news about fabric sponging machine seller,you can vist our website!
The manual fabric inspection machine is for elementary-level inspection. It checks fabric’s visual inspection on slanted or horizontal inspection tables. The inspector is likely to pull the fabric onto the illuminated inspection table for marking, locating, and recording any defects during the manual inspection. A fabric guide roll is often fixed on the machine’s top for facilitating the smooth flow of the fabric.
The greige fabric inspection equipment comes integrated with computerized vision. Hence, it can automatically locate, detect, mark, and grade certain weaving defects on various industry-based fabrics. Certain advantages of this machine are:
They deliver industrial fabrics with consistent and reliable quality standards.
The costs involved in the operation and inspection of these machines are low.
They offer constant improvement in fabric quality.
These machines can effectively decrease various customer claims.
The measurement and data are reliable and accurate.
The knitted inspection machines are great to identify the defects in delicate fabrics, such as knits, silk, and elastics. Furthermore, these machines can even accurately detect incorrect fabric sizes. These machines consist of multi-drive synchronization technology to ensure effortless fabric roll detection. These are available with anti-crease rollers for removing the creasing before fabric rolling. Furthermore, these machines are well-known for their capability to decrease labour deployment, time, and space significantly.
Fabric inspection is the visual examination, as well as reviews of different raw materials, in the industry. The industry experts often examine the fabrics to check whether they met the needed measurements.
Fabric inspection often works to find certain defects at an earlier stage. So, the money and time are not wasted while fixing their defects later on. The inspection of fabric is vital in the final stage to ensure the final garment quality is impeccable. In case, there is any defect in the material than could be an issue in the production. However, the use of the right inspection machine can help in eliminating the issues related to the fabric quality.


The Best Robotics Kits for Beginners

When we tested robotics kits for beginners, the Lego Boost set won over the toughest critics: kids. And robotics pros, makers, and hobbyists agreed. With its Lego-based design, built-in sensors, and expansive options for creativity, the Boost kit was the most fun to build with. Plus, the tablet app’s super-simple programming was the easiest to learn of any of the kits we tried.Get more news about Best Price Robotic Kit,you can vist our website!

Since it uses Lego pieces, the Lego Boost set is the most approachable and the easiest to figure out how to put together. It’s a well-thought-out kit that a panel of child testers enjoyed as much as we did. The simple programming interface is easy to get started with, and the visual instructions allow non-readers to use and enjoy it, though more advanced programmers might find it limiting.

If our main pick is unavailable, the next-best option is the Ubtech Jimu Robot AstroBot Series: Cosmos Kit. The companion smartphone and tablet app that leads you through building and programming is the most organized and simple to learn of any we tried. The clear instructions offer a straightforward introduction to the popular Scratch programming language. The blocklike Jimu building pieces aren’t as versatile as Legos, and they feel a little clunky, but they come together to build a capable robot.

Would you be surprised to hear that you don’t need an app to learn how to code? The Thames & Cosmos Kids First Coding & Robotics kit relies on color-coded cardboard tiles to program Sammy the robot, which means no screens are necessary to use this kit. It’s also recommended for kids as young as 4, though we think they’ll still need the help of a parent.


Why Are Automotive Chips Still In Short Supply?

By now almost everyone knows that the auto industry is still short semiconductor chips, although the situation seems to be improving. While it’s pretty much a given that electric vehicles use more semiconductors, why do gasoline-powered internal combustion engine (ICE) vehicles use so many chips? And do these chips have attributes that make it harder to crank up the manufacturing capacity when they are in short supply? That’s what this article will try to explain.Get more news about Original New Automotive Grade Chip,you can vist our website!

The New York TimesNYT +1.9% said that a modern vehicle can use as many as 3,000 semiconductor chips, while another source said over 1000. I’m sure that depends on what you are counting, but as recently as the 1960s electronics in vehicles were pretty much limited to the car radio. How did a product that was almost entirely mechanical not that long ago end up with so many chips? The answer has several parts, and it reflects the general rise of chip usage in a vast range of consumer and industrial products: performance, cost, and the migration of functionality from hardware to software.

For automobiles, the huge push for improvements in fuel economy after the 1973 oil crisis led to the rapid increase in the use of electronics in engine controls. While electronic ignitions had started to appear in the late 1960s, the use of microcontroller chips for engine controls demonstrated what was possible with a digital approach. Using sensors to monitor things like temperature, crankshaft position, mass air flow, throttle position, and concentration of oxygen in the exhaust gases, automakers were able to dramatically improve the fuel economy and emissions profiles of their vehicles. The controller chips did on-the-fly calculations to optimize engine performance, something that was impossible to do with mechanical sensors and linkages.

This highlights one of the big drivers behind growth in the use of semiconductor chips: the implementation of many functions using software that might have been hard to do (or even impossible) with hardware alone. Calculating the optimal rate to feed the fuel injectors might involve solving complex equations in real-time or looking up numbers in tables. That’s readily (and inexpensively done) with computer chips and some software. This is also how we got more sophisticated automatic transmissions, using software to implement sophisticated control schemes like downshifting when going downhill. A controller chip attached to speed sensors sends signals to semiconductor power switches that control the transmission solenoids. This highlights the role of power semiconductors, devices that switch power under digital control, which are widely used throughout a vehicle. If you count these devices as “chips” as well (as the New York Times probably did), the semiconductor device count in a vehicle goes way up.

Automotive grade semiconductor chips and the associated switches and devices they control are more reliable than their mechanical counterparts. I remember when I was a lot younger, a friend showed me the sequential turn signals in the trunk of their 1968 Mercury Cougar. The red turn lights were apparently connected to a little motor-driven rotating switch that “sounded like a washing machine.” Once the contacts got worn or corroded, that thing was a mess. Going to semiconductor switches and a simple timer circuit made mechanisms like that far more reliable.


How CNC Machining Is Changing the Medical Industry

Products, devices, and accessories used in medicine are becoming ever more sophisticated as new technologies emerge to improve human health and patient outcomes. These products are found everywhere, from surgical wards to rehabilitation centers, from small town clinics to the family medicine cabinet.Get more news about Prototype Cnc Machining,you can vist our website!

Advances in CNC machine tool technology are being driven by the demands of the marketplace. Sophisticated designs for next-generation applications require higher levels of precision and repeatability. That, in turn, is expanding the envelope of what is physically possible in tool design.

Machine manufacturers are always searching for ways to optimize performance by controlling vibration, increasing machine speed, lowering maintenance costs, and providing flexible machining platforms that can perform multiple complex tasks in one machine set-up.
Linear Drives
Multi-axis CNC machines travel on several independent axes. To do this, most machines use a rack-and-pinion guide or a linear screw and reciprocating ball drive system. Both types are subject to friction and wear and have limitations both in accuracy and in speed.

But linear drive systems work much like a Maglev train. Electrical current, interacting with powerful magnets, levitates the carriage off the guide rail while also driving its travel. This means no friction, no wear and tear, and no maintenance. And linear drive systems move much faster, with much higher degrees of accuracy and precision.
Hydrostatic Guides
Another innovative drive solution, also calibrated to reduce friction, is the hydrostatic guide. These use precisely ground guideways that are cushioned with a thin film of oil. The oil is continuously pumped into and out of a carriage, and this carriage holds the workpiece. The oil flotation quells vibration and removes friction, thereby leading to excellent surface finishes on the part.

Temperature Control
The buildup of heat is always a problem when machining at the very edge of performance. This is because the natural expansion of all materials when they heat up will definitely throw tolerances out of control—unless this heat is controlled with very serious central cooling. In addition, smart manufacturers have figured out how to calculate the rate of expansion for all critical components in their system and then counteract those movements accordingly.

More advanced machine tools allow for the manufacture of more advanced products, and that is certainly no exception when it comes to medical devices.

There is no other mass production process that is so reliable, precise, scalable, cost effective, and easily customized. Let’s take a closer look at how CNC machining can be used to improve the development of medical devices in certain key areas.


Magnetic Connector offers sleek looks

GlobTek offers off the shelf magnetic connector MAG2C2A11851M5xxxA(R as a standard magnetic connector output cord option for power supplies or MAG2C2A11851M5USBA(R as a detachable connector with USB-A termination. This upgraded version of our popular magnetic connector system offers #20 Gauge 2 conductor cable in a 1.5 meter length. Mating panel mounted jack, JACKMAG2C2A, is also available for system side implementation.Get more news about pin magnetic connector seller,you can vist our website!

This magnetic connection system features Super Strong N52 Neodymium Magnets, one of the world's strongest and most powerful rare earth magnets. Electrical contact Is made via gold plated pogo pins, and all components are connected with various types of electrical cable and overmolded. Self-locating magnetic connectors allow for a high number of mating cycles eliminating failed connections. GlobTek magnetic connectors are vibration-proof, cleanable and allow for a correct connection in the most inaccessible of locations. The "tearaway function” prevents damage to the connector by accidental or unintended disconnection.

Many variations and customizations are available such as lengths, colors, and also mating cables. Combined current, data, LAN and RF connection customizations is an option.

GlobTek has a core competence in both designing partially or completely customized plugs or implementing customer specific designs. GlobTek utilizes state of the art software and engineering abilities to design, validate, and tool connector solutions for all sorts of applications.

GlobTek manufactures such solutions as input and output connectors for power supplies as well as stand-alone cable assemblies.

GlobTek is able to utilize off the shelf components or custom fabricate components as well as overmolds in all ratings, colors, shapes, hardness, and materials.

GlobTek handles all aspects of Mold/tooling design, implementation, and injection molding out of it’s Suzhou China production facility.

Please contact GlobTek with your requirements, specifications, or drawings for a proposal.


The Accidental Invention of Bubble Wrap

When a very young Howard Fielding carefully cradled his father’s unusual invention, he had no idea that his next action would make him a trendsetter. In his hands was a plastic sheet with air-filled bumps across it. As he fingered the funny-feeling film, he couldn’t resist the temptation: he started popping the bubbles—just like much of the rest of the world has been doing ever since.Get more news about Best Price Bubble Wrap,you can vist our website!

And so Fielding, who was about 5 years old at the time, became the very first person—for fun—to pop Bubble Wrap. The invention revolutionized the shipping industry and made the e-commerce era possible, protecting billions of products shipped worldwide each year.I remember looking at the stuff and my instinct was to squeeze it,” Fielding says. “I say I’m the first person to pop Bubble Wrap, but I’m sure it’s not true. The adults at my father’s firm likely did so for quality assurance. But I was probably the first kid.”

He adds with a chuckle, “They were really fun to pop. The bubbles were a lot bigger then, so they made a loud noise.”

Fielding’s father Alfred was co-inventor of Bubble Wrap with his business partner Marc Chavannes, a Swiss chemist. They were trying to create a textured wallpaper in 1957 that would appeal to the burgeoning Beat generation. They put two pieces of plastic shower curtain through a heat-sealing machine but were disappointed—at first—by the results: a sheet of film with trapped air bubbles.

However, the inventors did not totally dismiss their failure. They were granted the first of several patents for the process and equipment of embossing and laminating materials, then started thinking of uses: more than 400, in fact. One—greenhouse insulation—made it off the drawing board, but ultimately was about as successful as textured wallpaper. The product was actually tested in greenhouses, but it proved ineffective.
To continue developing their unusual product, which was branded Bubble Wrap, Fielding and Chavannes founded Sealed Air Corp. in 1960. It wasn’t until they decided the next year to use it as packaging material that they found success. IBM had recently introduced the 1401 unit—considered the Model-T of the computer industry—and needed a way of protecting the delicate device during transit. The rest, as they say, is history.

“It was the answer to IBM’s problems,” says Chad Stephens, vice president of innovation and development for Sealed Air’s Product Care Division. “They could ship their computers without damage. That opened the door for a lot of other businesses to start using Bubble Wrap.”

Small packaging companies quickly embraced the new technology. To them, Bubble Wrap was a godsend. Previously, the best way to protect an item during shipping was to surround it with balled up newsprint. It was messy since ink from the old newspapers often rubbed off on the product and those handling it. Plus, it really didn’t offer that much protection.

Sealed Air began to grow as Bubble Wrap caught on. The product evolved into different shapes, sizes, strengths and thicknesses for expanded uses: big and little bubbles, wide and short sheets, large and short rolls. All the while more people were discovering the joy of popping those air-filled pockets (even Stephens admits to being a “stress-relief popper”).


Laser cutting in the fast lane

Enhanced cutting quality and productivity thanks to the new, even higher laser power: In order to offer sheet metal processing companies even more effective support in an increasingly competitive environment, Bystronic is now advancing into a new dimension of fiber laser cutting: the 20 kilowatt ByStar Fiber.Get more news about profile pipe cutting machine 20kw,you can vist our website!

The high-end fiber laser represents high-precision Bystronic technology, a reliable cutting process even with the highest laser outputs, and a wide range of applications. This enables sheet metal processing companies to take another major step forward in terms of productivity and efficiency.

The technological leap from the previously available 3 to 15 kilowatt laser output levels to the latest 20 kilowatt level is considerable and opens up new possibilities for Bystronic’s customers to optimize their production and thus remain one step ahead of the increasingly fierce competition.
Compared to 15 kilowatts, the productivity of the 20 kilowatt ByStar Fiber are on average 40% in mild steel and stainless steel 4 mm to 20 mm. This means that sheet metal processing companies can benefit from higher productivity at low unit costs, because thanks to its 20 kilowatts, the new ByStar Fiber cuts steel, aluminum, and stainless steel precisely and reliably. The 20 kilowatts of laser power thus enable maximum flexibility for both large series and urgent customer orders.

Regardless of whether cutting aluminum, non-ferrous metals, or steel, the high-performance Bystronic cutting head excels with maximum precision in both thin and thick sheets and profiles. In addition, the 20 kilowatts open up extended applications in steel and aluminum of up to 50 mm.

New: The optional «Parameter Wizard» ensures that the correct quality of the cut parts is always selected – by obtaining the perfect parameter within minutes.


YOOZ UNI & UNI Pro Starter Kits Review – Switch to Vaping Now

If you use prefilled pod system vape, except Juul and REXL, YOOZ must be a name you are acquainted with. YOOZ is a vape brand that specializes in prefilled pod systems. YOOZ debuted in 2019 and it has become one of the most famous prefilled pod system brands in China and SEA. Today, we will review YOOZ’s latest pod system YOOZ UNI and UNI Pro. They share the same pod: YOOZ UNI pod (2.1mL capacity). YOOZ UNI and UNI Pro both are from the UNI series. They are like the Apple iPhone 13 and 13 pro. YOOZ UNI Pro is pro for its wireless charging feature and has 50mAh more battery compared to UNI. Other than that, they have almost the same specification.Get more news about oem yooz vape,you can vist our website!

We have got four flavors, and we will tell you whether we like it or not and why. FYI, we highlight aspects we like in green, and those we don’t in red, to make your reading easier.

Suprisingly, YOOZ UNI supports fast charging with a charging rate at about 1.789A (≈1.8A). The most commonly seen charging rate for a pod system is 1A. Moreover, as a prefilled charging system, YOOZ UNI doesn’t provide multiple power modes and it doesn’t list the wattage and voltage range. The output wattage we tested was 6.06W. Voltage was 2.56V and current was 2.37A. Resistance was 1.08A which fell in the range of 0.8-1.4Ω.

UNI and UNI Pro look the same. We got the dark grey ones for both UNI and UNI Pro. On the front of the device, YOOZ logo is indented and it’s also the breathing LED light. On the back, you will see the text logo of YOOZ. Airflow inlets are on the both sides of the device separately. And charging port is on the bottom where you can find two screws near the port. The surfaces of YOOZ UNI and UNI Pro are made of alloy, which feels comfortable. The device has rounded edges. When holding the vape, you won’t experience any tough touch. Generally speaking, the design of YOOZ UNI is chic and simple. It will fit your business suit.

UNI Pro also comes with a magnetic cap that aims to avoid dust from touching the mouthpiece. The cap has a strong magnet. It’s a great addon but when we were using it, we didn’t know where to put it. We were worried that we would lose it. But it varies from people’s habits. Some of our members just held the cap on the other hand when vaping, so they just put the cap back after several puffs.

We especially love the LED light. The YOOZ logo will breath and light up and fade away gradually when vaping.

For the UNI pod, it houses 2.1mL capacity, and is magnetically connected to the device. The mouthpiece is flat. It feels good between lips. The design also makes mouth-to-lung more comfortable.Prefilled pod system is born for convenience. It doesn’t require you to refill the pod, adjust your preferred output power, or press any button. Just plug the pod in and you can enjoy for a few days or so. When the pod is finished, all you need to do is to throw the old pod away. People mostly use prefilled pod vapes to seek an alternative to smoking. As a result, vape brands rack their brains to make innovation on other functions.


Why Are Kitchen Counters 36 Inches High?

A lot of offices now have adjustable height desks, which you can set at the proper height when standing. It's basic ergonomics. As one supplier noted, "Using standing desks correctly may seem like a no-brainer from an outsider’s perspective: You stand. You work. You repeat. However, ergonomics is not an exact science because every human body is different. The optimal height for your desk will be different for you than for someone else." The general rule for standing desk height is that "as your elbows are positioned at a 90 degree angle from the floor, measure the distance from the floor to the bottom of your elbow."Get more news about oem kitchen countertop,you can vist our website!

Yet when you go into a kitchen, everybody is the same, and just about every kitchen counter is 36 inches high. Alexandra Lange wrote in Slate a few years ago that it was not supposed to be this way. Kitchen design pioneer Lillian Gilbreth, herself a very tall 5 foot 7 inches, thought the height should vary according to the task and the person. Lange explains:
Some have suggested that kitchen counters are 36 inches because it worked for Gilbreth, but an article in Quartz points to a source I had not read before, "Counterintuitive: How the Marketing of Modernism Hijacked the Kitchen Stove" by "cook, food writer, food editor, and short person"
Leslie Land, who also wondered why kitchen stoves and counters are 36 inches tall. It's in a book titled "From Betty Crocker to Feminist Food Studies" that can be downloaded from the University of Massachusetts Amherst.
It wasn't always this way. As noted in my history of the kitchen, the famous Hoosier kitchen was adjustable in height. This was a marketing feature: "Now you can get a HOOSIER that is exactly as high or as low as you need it. No matter how tall or how short you may be, your NEW HOOSIER exactly fits you." Land notes that both kitchen design experts Christine Frederick and Gilbreth favored different heights for different functions.

Lenore Thye, the designer of the wonderful step-saving kitchen and source of our first photo, also noted: “The practice in modern kitchen layouts of having all surfaces on a level, using the 36 inch height of the range as the unit of measure, places more emphasis on appearance than suitability. Different tasks performed in the kitchen frequently require work surfaces of different heights.”

But as we have noted before, the Bauhaus and the modern movement was a reaction to the tuberculosis crisis. It was all about health, or as Paul Overy titled his book, about "Light, Air and Openness." The design of almost everything was about cleanliness and washability, with no nooks and crannies for bacteria to hide. A kitchen had to be hospital-clean.

This, rather than fashion or marketing, was probably the source of the closed and fitted kitchen. But if a kitchen is going to have continuous counters, what height should they be? In her search for the source of the 36-inch counter, Land found what she calls "the smoking sink."

She writes: "In the early ’30s, countertops were generally about 31 inches tall, while the tops of the—freestanding—sinks were a sensible 36 inches...When the mania for continuous counters decreed that everything from the breadboard to the stove burners to the sinktop must be the same height, the sinktop won, and the 36-inch stove was born."



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