On July 15, 2021, Shanghai United Rolling Bearing Co., Ltd. and Shanghai Electric Shangzhong Grinding Special Equipment Co., Ltd. signed the "Bearing Business Strategic Cooperation Agreement" in Shanghai Joint Bearing. The two companies are co-located in the old Minhang area of Shanghai. Shangzhong grinds its predecessor, Shanghai Heavy Machinery Factory. It has a long history and excellent corporate culture. The "10,000-ton spirit" of the 10,000-ton hydraulic press is a testimony to the start of the Minhang Industrial Satellite City.
This strategic cooperation in the bearing business highlights product advantages, geographic advantages and service advantages, and provides a guarantee for all-round bearing business support and services. At the same time, it provides a close cooperation platform for the common development of the two companies and product upgrades in the future.
Just like its name suggests, this timeless design will never date.
This l candle jar has a brilliant clear finish. Perfect when working with candle dye to show off your pretty colours.
This is a very strong, thick glass jar and complies with ASTM 2179 AND 2147 testing methods. (Ensures glass is able to withstand heat and has no cracks or fractures)
Schaeffler’s Smart Ecosystem 4.0 is a cloud-based hardware and software infrastructure that includes every stage of digital added value – from components equipped with sensors through to digital services. The flexible architecture of this system gives manufacturers and operators of machines and equipment a simple and application-oriented point of entry into a range of digital services that can be expanded at any time. The rolling bearing, its mechatronic derivatives, and the corresponding domain expertise provide the central source of information in this field.
Components equipped with sensors are central to the drive systems used in machines and equipment – they record data and are the fundamental “enablers” for these digital services. Schaeffler’s aim is to continuously transform conventional mechanical products and integrate them into the digital world. Bearings and guidance systems equipped with sensors have already been on the market for several years. At the 2017 Hannover Messe, Schaeffler will be presenting a rolling bearing system that is based on standard products and can be configured in a modular fashion with various different sensors, which allows virtually every desired bearing position to be equipped with sensors: The FAG VarioSense. This represents an important step towards a future in which not only complex systems but also simple assemblies and machines will have easy access to digitalization and the Internet of Things.
Schaeffler’s cloud-capable FAG SmartCheck, which for the first time allows a simple and flexible point of entry into the digitalization of machines and equipment based on vibration monitoring, will also be on display at the 2017 Hannover Messe. This latest version of the FAG SmartCheck uses an MQTT interface to provide a direct link to the Schaeffler cloud or to any other platform based on IBM technology. It is also possible to communicate with other cloud technologies via a Schaeffler gateway or alternative gateway solutions using an OPC/UA interface. The connection between the SmartCheck and the Schaeffler cloud is remarkably easy to make via smartphone, e.g. by scanning the relevant product’s QR code or using the free app.
This gives the customer direct access to services such as Schaeffler’s automated rolling bearing diagnosis, which is based on the vibration data that the FAG SmartCheck has gathered from rolling bearings as well as shafts and other rotating components. Depending on his or her contract, the customer receives access to the condition data, partially-automated recommended actions or, in the case of more complex machines, a connection to the Schaeffler Service Center, which provides specific and individual recommended actions.
In the next stage, it will also be possible to use the SmartCheck to record speed and torque and to classify these load data. In the cloud, the Bearinx rolling bearing calculation tool is then used to compare the real load data with the fundamental load data used during the design phase, and the rolling bearing’s remaining useful life is then calculated on this basis. These applications will be available for all products based on the SmartCheck technology, including railway technology applications like those presented by Schaeffler at the 2016 InnoTrans.
The rolling bearing is suited for gathering information, since it is located at the heart of the application’s flow of force and thus exposed to all of the loads that occur. Combining them with the domain expertise about rolling bearings in specific applications that is made available via the cloud allows this information to be used to control the process in a targeted manner in order to achieve the maximum degree of capacity utilization and optimize product quality. The prerequisite for this is a holistic and standardized infrastructure from the sensor through to the cloud, which Schaeffler now provides with its Smart Ecosystem 4.0.
The life of clinician is never dull. Situations that might seem rare happen almost daily, and it’s nearly impossible to anticipate what may happen next. Still, the right preparation can go a long way. In many industries, there are methods to deal with such risky and costly situations.
One simulation type that’s growing in popularity is the digital twin, which is used to simulate complex real-world processes in a digital environment. It’s an innovative technology that’s being used by an increasing number of companies like IBM, Boeing, and Tesla.
It is not surprising that the global digital twin market is on the surge – it’s expected to increase by almost 40% annually by 2025. As such, digital twins have found their place in many industries, most notably in healthcare. They allow hospitals to fine-tune their operations and adapt the approach to patients.
What are digital twins, exactly?
Digital Twins are virtual equivalents of physical objects and processes. Besides the visual representation, these digital equivalents also include mathematical models and sensor data that helps provide updates in real time. However, a digital twin is only as good as the model and data used to create it.
Why do companies utilize digital twin technology? When implemented correctly, it allows users to manipulate a digital entity and learn something, without affecting anything in the physical space. More or less, digital twins cut the shortcomings of more traditional experiments: Risks are marginal, costs are low, and the required time window is short, as you can get feedback instantly.
Another advantage digital twins provide is an insight into the process – they can detect issues even before they arise. By coupling the digital twin with machine learning or artificial intelligence algorithms, users are able to track even the tiniest of processes that may otherwise remain hidden to the human eye.
A digital twin to fix a physical space
Healthcare is one of many industries where digital twins can easily and effectively be applied. Mater Private Hospital in Dublin was faced with snowballing patient numbers, increasing complexity, and out-of-date equipment. Such conditions resulted in overworked staff, unhappy patients, and, by relation, unhappy management. It was evident that changes were long overdue, and more specifically, that the radiology department needed a redesign.
However, there are endless possibilities when redesigning something. As a process, optimization is complex – there are many variables, boundaries, and objectives. Thus, the management decided to use digital twin technology to solve the problem. A virtual copy of the radiology department allowed the engineers to change procedures and scenarios, without disrupting daily operations.
The result? Tests that used to take months were completed in a matter of hours. Any unfavorable or unwanted changes could be easily reversed. After evaluating the effects of various scenarios, the most efficient one was selected.
“It was amazing watching our 2D plans transform into 3D, then 4D, reality. Thanks to our digital twin, we now have the best possible configuration for our department,” said Paddy Gilligan, Chief Physicist & Registered Radiation Protection Advisor at MPH.
The benefits were apparent – the hospital reported shorter wait times (by 25 minutes) and increased equipment use. MRI capacity alone rose by 32%, while staffing costs fell by over $10,000 annually, due to a lower number of overtime hours.
Further opportunities – “my digital twin”
Besides layout optimization, digital twins help health professionals in other ways. Their use in the preparation of surgical procedures is particularly helpful, both for doctors and patients. Digital twins enable a surgeon to plan the procedure and find the ideal path to success, even mitigating the need for surgery, in some cases. For cardiologist Benjamin Medder, digital twin technology gave him the opportunity to place a pacemaker in a digital heart, allowing him to run simulations of the effectiveness of the potential procedure before it happens.
To better illustrate the usefulness of digital twins, here is an unsettling example: Two-thirds of endovascular repairs were found to be out of place. However, that leaves plenty of opportunity for optimization. An experimental software was developed, allowing for quick evaluation of the implant position. By varying its position, the surgeon can maximize the surgery’s effectiveness, and subsequently, the patient’s prognosis. Preliminary clinical trials have shown that the method has eliminated the need for repeated surgery.
Besides helping veteran surgeons, digital twins are also very tempting to surgical residents. Unlike traditional trainings that may take place using real, physical examples, digital twins allow for procedures to be repeated using different scenarios every time.
Digital twins in manufacturing
Outside of the healthcare industry, there are other industries that are already being improved by digital twins. Manufacturing, for instance, uses the technology in plenty of ways, from current and future product design to actual production process improvements. With the rise of theInternet of Things and an influx of digitally enabled smart technologies, the opportunity for digital twins has only grown.
For manufacturers with multiple factories in different locations, a digital twin can serve to help optimize process lines, individual pieces of equipment, and more, all without actually changing daily operations.
“It is a window to understanding where issues lie, where improvements can be made, and how to better optimize production,” says Chris Parsons, VP of Global Marketing at Critical Manufacturing.
There are other applications for product designers and engineers, as well. Digital twins present a new opportunity for designers and engineers to incorporate sensors and assets that can provide real-time data. With that data, they can then test and experiment with product changes to provide improvements, even while out in the field. This type of immediate customer engagement and feedback is something that has been a struggle in the past.
Cautious optimism for digital twins
Digital twin technology does have shortcomings that should be addressed. Countless examples of data breaches should make early adopters a bit cautious, as the problems caused by a leak of a digital twin body could be tremendous.
That said, digital twin technology is making an impact on industries globally, and it seems that the future is bright.
現今,許多學者與市場觀察家都在探究共享經濟模式背後成功與否的因素。例如,根據哈佛商業評論(Harvard Business Review)最近發表的一篇文章指出,在共享經濟中建立信任至關重要;另一項由斯坦福大學(Stanford University)提供的資料分析則揭示了平台規模對效率影響之深遠。儘管如此,在這些亮眼成果背後,仍然存在諸多問題需要解決。
YKSITYISOMAISUUS JA YHTEISOMAISUUS: FILOSOFIASTA GLOBAALIPOLITIIKKAAN
Talous nousee voimakkaasti esille jokapäiväisessä uutisoinnissa. Ja jokapäiväisissä kahvipöytäkeskusteluissa taas päivitellään, miksi kaikkea mitataan rahassa. Mihin ovat kadonneet muut arvostuksen mittarit?
Taloudesta ja omistamisesta puhutaan myös kevään Filosofiakahviloissa. Kevään ensimmäisenä puhujana kahville saapui dosentti, tutkija Teppo Eskelinen Itä-Suomen yliopistosta, joka pohti yksityis- ja yhteisomaisuutta filosofisesta ja globaalipoliittisesta näkökulmasta.
– Taloudesta puhutaan aivan liikaa. On totta, että talous ja taloudellinen oikeuttaminen hallitsevat meidän elämäämme, Eskelinen toteaa.
Money makes the world go round, raha pyörittää maailmaa, todetaan. Asioita arvotetaan tässä maailmassa voimakkaasti kustannusten ja taloudellisen tuottavuuden näkökulmasta.
– Jos sanotaan, että jokin asia on taloudellisesti tuottava, se on tässä maailmassa riittävä argumentti. Sen jälkeen ei tarvitse enää sanoa mitään. Sen sijaan jos sanotaan, että jokin asia lisää ihmisten sivistystä ja hyvinvointia, on joku kysymässä miksi se on hyvä asia.
Maailman ongelmia on pyritty pitkälti poistamaan siirtämällä asioita ja alueita yhteisestä omistuksesta yksityiseen omistukseen. Tämän on katsottu selkeyttävän käyttöoikeuksia ja vastuita sekä näin ohjaavan ihmisiä ja alueita tuottavampaan toimintaan – minkä on katsottu olevan hyväksi yhteiskunnallisesta näkökulmasta.
– Taloudellista tehokkuutta ei ole, jos asiaa ei saateta sellaisille mittareille tai kielelle, jotka taloustiede tunnistaa. Onko kyse siis vain taloustieteen sisäisestä päättelystä?
Yhteisomistajuus nostaa kuitenkin päätään myös ekologisista syistä. Ei ole järkevää, että kaikilla on oma pesukone, kun taloyhtiön kellarissa voi hyrrätä paljon parempi kone, halvemmalla. Toisaalta ilman kunnollista vastuunjakoa siihen liittyy myös ongelmia.
– Tiedetään myös, että yhteisomistus voi olla kaikkein tehottominta, koska on mahdollista, että yhdessä omistettu pesukone jää hunningolle ja kaikki ostavat lopulta oman koneensa.
Myös yritysmaailmassa ollaan menossa jossain määrin suuntaan, jossa omistamisesta pyritään eroon. Kiinteistöt realisoidaan, laitteiden sijaan ostetaan laitteiden käyttötunteja ja niin edelleen. Omistamista ei nähdä enää tärkeänä välineenä itse tuotannon kannalta.
Miten omistuksen oikeutus on siten alunpitäen rakentunut, kuinka voimme väittää jotain omaksemme?
Kuuntele Eskelisen Filofofiakahvilassa pitämä alustus kokonaisuudessaan:
Alustus on on taltioitu Filosofiakahvilassa Kuopiossa 27.1.2015.
Filosofiakahviloissa tavalliset ihmiset kokoontuvat yhteen keskustelemaan heitä koskettavista kysymyksistä. Tavoitteena on elävyys, toisten kohtaaminen kasvokkain, eri-ikäisten ja eri elämänpiireistä tulevien ihmisten näkeminen ja kuunteleminen sekä uusien näköalojen avaaminen yhdessä.
Kantti taltioi Filosofiakahvilan alustuksia yhteistyössä Snellman-kesäyliopiston kanssa.
Welcome to our blog, where we take an in-depth look at the world of drywall fasteners and the exceptional products Tianjin Giant Star Hardware Products Co., Ltd. has to offer. With more than 20 years of experience in the industry,Giant Star is a well-known manufacturer in the heartland of North China, a hardware fastener base in Tianjin, China. In this article, we explore the superior performance of drywall screws and shed light on the company’s commitment to quality and innovation.
Uncover the essence of Tianjin drywall screws:
Drywall screws play a vital role in the construction industry, ensuring the stability and longevity of structures. As a market leader, Tianjin Giant Star Hardware Products Co., Ltd. offers a wide range of top-notch drywall screws, manufactured with the highest precision to international quality standards.
Unparalleled Strength and Durability:
Tianjin drywall screws are engineered for unrivaled strength and durability, making them ideal for professional contractors, builders, and DIY enthusiasts alike. Screws undergo rigorous testing procedures to ensure their ability to withstand heavy loads and corrosion resistance, thus guaranteeing longevity and reliability in various construction projects.
Precision Engineering Design:
Tianjin drywall screws are unique in their precision design.Giant Star Hardware Products Co., Ltd. has state-of-the-art production facilities and advanced machinery to ensure that every screw is carefully crafted to meet specific industry requirements. Every aspect of the screw, from the thread pattern to the sharpness of the tip, is engineered to optimize performance and ease of installation.
Excellent quality control measures:
At Great Star, uncompromising quality is the most important factor in every manufacturing process. The company adopts a comprehensive quality control system and follows strict standards throughout the production process. This includes rigorous material selection, advanced testing methods and constant monitoring to ensure only the best drywall screws reach the market. This dedication to quality has earned Tianjin Giant Star Hardware Products Co., Ltd. a solid reputation as a trusted supplier in the industry.
An unwavering commitment to innovation:
Innovation drives success in any industry, and Tianjin Giant Star Hardware Products Co., Ltd. knows this well. The company invests heavily in research and development to stay at the forefront of technological advancement. By utilizing the latest manufacturing techniques and materials, Tianjin Drywall Screws consistently deliver improved performance, ease of use, and ultimately increased customer satisfaction.
Excellent export:
With years of international export experience,Tianjin Great Star Hardware Products Co., Ltd. has successfully become a global player in the drywall screws market. The company’s commitment to timely delivery, cost-effectiveness, and exceptional customer service has earned the trust of countless customers around the world. From North America to Europe and beyond, Tianjin drywall screws are highly sought after for their quality and reliability.
In conclusion:
Tianjin Giant Star Hardware Products Co., Ltd. has carved out a niche in the highly competitive drywall screw market with its unwavering dedication to producing quality products. Their commitment to excellence, combined with years of experience and innovation, ensures that their Tianjin Drywall Screws meet and exceed industry expectations. Whether you’re an industry professional or an enthusiastic DIYer, choosing Giant Star’s drywall screws can ensure a strong, reliable solution to your building needs.
