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Space industrial special technological equipment for the medical industry and its spare parts

Here is a brief description of major types of engineering programs found at many universities. Check with the school that you wish to attend to see if they have a specific program that fits your interest. Aerospace engineers design, analyze, model, simulate, and test aircraft, spacecraft, satellites, missiles, and rockets. Aerospace technology also extends to many other applications of objects moving within gases or liquids. Examples are golf balls, high-speed trains, hydrofoil ships, or tall buildings in the wind.

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Evidence-based medical equipment management: a convenient implementation

VIDEO ON THE TOPIC: Innovations in Digital Health: Technologies Shaping the Future of Health Care

Here is a brief description of major types of engineering programs found at many universities. Check with the school that you wish to attend to see if they have a specific program that fits your interest. Aerospace engineers design, analyze, model, simulate, and test aircraft, spacecraft, satellites, missiles, and rockets.

Aerospace technology also extends to many other applications of objects moving within gases or liquids. Examples are golf balls, high-speed trains, hydrofoil ships, or tall buildings in the wind.

As an aerospace engineer, you might work on the Orion space mission, which plans on putting astronauts on mars by Or, you might be involved in developing a new generation of space telescopes, the source of some of our most significant cosmological discoveries.

But outer space is just one of many realms to explore as an aerospace engineer. You might develop commercial airliners, military jets, or helicopters for our airways.

And getting even more down-to-earth, you could design the latest ground and sea transportation, including high-speed trains, racing cars, or deep-sea vessels that explore life at the bottom of the ocean. Agricultural engineers apply knowledge of engineering technology and science to agriculture and the efficient use of biological resources. In addition to creating advances in farming and agriculture, agricultural engineers apply engineering design and analysis to protecting natural resources, develop power systems to support agriculture, and provide environmental controls.

Most people take the sounds we hear every day for granted. But it may surprise you to learn that the creation of audio is a unique endeavor that blends both art and science. Did you ever stop to think how they created the sounds in a video game, a movie, tv show, or at a concert? There are many career choices in the field of audio engineering. Perhaps you are a musician, are interested in electronics and sound, or like the idea of working with people who produce and perform in the many fields of entertainment.

You will find challenging and fulfilling work in audio engineering. Bioengineers study living systems and apply that knowledge to solve various problems. Bioengineering is widely used to destroy waste and clean up contaminated soil and water. These engineers contribute greatly to human health and the environment. Biomedical engineers study biology and medicine to develop technologies related to health care. Rapid advances in these areas will undoubtedly continue throughout your lifetime.

Ceramic and materials engineers solve problems by relying on their creative and technical skills, making useful products in many forms from common as well as exotic materials. Every day we use a multitude of these products. Each time we talk on the phone, use a computer, or heat food in a microwave oven, we are using products made possible by the inventions and designs of engineers working with ceramics and other materials. Everything around us—including us—is made of chemicals. Chemical changes can be used to produce all kinds of useful products.

Chemical engineers discover and manufacture better plastics, paints, fuels, fibers, medicines, fertilizers, semiconductors, paper, and all other kinds of chemicals. Chemical engineers also play an important role in protecting the environment, inventing cleaner technologies, calculating environmental impacts, and studying the fate of chemicals in the environment. What would it feel like to have the expertise to build a school that could withstand an earthquake, a road system that puts an end to chronic traffic jams, or a sports stadium that offers everyone a great view?

Computer engineering is the design, construction, implementation, and maintenance of computers and computer-controlled equipment for the benefit of humankind. Most universities offer computer engineering as either a degree program of its own or as a sub-discipline of electrical engineering.

Because of this, several universities offer a dual degree in both electrical and computer engineering. As an electrical engineer, you could develop components for some of the most fun things in our lives mP3 players, digital cameras, or roller coasters , as well as the most essential medical tests or communications systems.

As an electrical engineer, you might work on robotics, computer networks, wire-less communications, or medical imaging—areas that are at the very forefront of technological innovation. Environmental engineering is the study of ways to protect the environment.

Most of us care deeply about stopping pollution and protecting our natural resources. Imagine yourself having more than just a passion for saving our environment, but also possessing the actual know-how to do something about these alarming problems! Geological and geophysical engineers draw on the science of geology to study the earth, using engineering principles to seek and develop deposits of natural resources and design foundations for large buildings, bridges, and other structures.

Related engineering fields include civil, mineral, mining, and petroleum. Industrial engineers determine the most effective ways to use people, machines, materials, information, and energy to make a product or to provide a service. Manufacturing engineers direct and coordinate the processes for making things—from the beginning to the end. As businesses try to make products better and at less cost, it turns to manufacturing engineers to find out how.

Manufacturing engineers work with all aspects of manufacturing from production control to materials handling to automation. These engineering fields are closely related, and deal with the design of ocean vehicles, marine propulsion systems, and marine structures such as harbors, docks, and offshore drilling platforms. A thin cable of fiberoptic strands and electrical conductors connects the ship to a remotely piloted robotic vehicle on the seafloor 7, feet below as it shoots live, high-definition video of volcanic smoker vents and strange life-forms.

The video is linked in real time to a communications satellite 22, miles above and, from there, into classrooms coast to coast. Mechanical engineers are often referred to as the general practitioners of the engineering profession, since they work in nearly every area of technology, from aerospace and automotive, to computers and biotechnology. Mining engineers study all phases of extracting mineral deposits from the earth. They design mines and related equipment and supervise their construction and operation.

They also work to minimize the environmental effects of mining. Nuclear engineers harness the power of the atom to benefit humankind. They search for efficient ways to capture and put to beneficial use those tiny natural bursts of energy resulting from sub-atomic particles that break apart molecules.

As a nuclear engineer, you may be challenged by problems in consumer and industrial power, space exploration, water supply, food supply, environment and pollution, health, and transportation. Participation in these broad areas may carry you into many exciting and challenging careers. These may include interaction of radiation with matter, radiation measurements, radioisotope production and use, reactor engineering, and fusion reactors and materials. Petroleum engineers study the earth to find oil and gas reservoirs.

They design oil wells, storage tanks, and transportation systems. They supervise the construction and operation of oil and gas fields. Petroleum engineers are researching new technologies to allow more oil and gas to be extracted from each well. For scholarship inquiries please email: This email address is being protected from spambots. You need JavaScript enabled to view it. For general inquiries please email: This email address is being protected from spambots.

Remember Me. Designed by StrategyNYC. Discover the Different Types of Engineering Careers Here is a brief description of major types of engineering programs found at many universities. Aerospace Aerospace engineers design, analyze, model, simulate, and test aircraft, spacecraft, satellites, missiles, and rockets.

Agricultural and Biological Agricultural engineers apply knowledge of engineering technology and science to agriculture and the efficient use of biological resources. Audio Most people take the sounds we hear every day for granted. Bioengineering and Biochemical Bioengineers study living systems and apply that knowledge to solve various problems.

Biomedical Biomedical engineers study biology and medicine to develop technologies related to health care. Ceramic and Materials Ceramic and materials engineers solve problems by relying on their creative and technical skills, making useful products in many forms from common as well as exotic materials.

Chemical Everything around us—including us—is made of chemicals. Civil What would it feel like to have the expertise to build a school that could withstand an earthquake, a road system that puts an end to chronic traffic jams, or a sports stadium that offers everyone a great view? Computer Computer engineering is the design, construction, implementation, and maintenance of computers and computer-controlled equipment for the benefit of humankind. Electrical As an electrical engineer, you could develop components for some of the most fun things in our lives mP3 players, digital cameras, or roller coasters , as well as the most essential medical tests or communications systems.

Environmental Environmental engineering is the study of ways to protect the environment. Geological and Geophysical Geological and geophysical engineers draw on the science of geology to study the earth, using engineering principles to seek and develop deposits of natural resources and design foundations for large buildings, bridges, and other structures. Marine and Ocean These engineering fields are closely related, and deal with the design of ocean vehicles, marine propulsion systems, and marine structures such as harbors, docks, and offshore drilling platforms.

Mining Mining engineers study all phases of extracting mineral deposits from the earth. Nuclear Nuclear engineers harness the power of the atom to benefit humankind. Petroleum Petroleum engineers study the earth to find oil and gas reservoirs. Forgot your username?

As the technology permeates more design studios and factory floors, the potential applications are virtually endless. From construction to pharmaceuticals to trash management, we take a look at the industries that 3D printing could disrupt. Applications of 3D printing in architecture and construction are developing rapidly.

A French cosmetics giant uses one to create artificial skin. A Wisconsin start-up designs ceramic guides that pinpoint tumors in individual cancer patients. Workers on a remote North Sea oil rig make replacement parts on the spot rather than wait days for a ship or helicopter to arrive. All these actions are made possible by one technology: 3-D printing. Developed in the s, 3-D printers create three-dimensional objects by laying down successive layers of material, a process called additive manufacturing. The technology has evolved to work with different types of substances: plastics, metals and now biological materials.

3D-Printed Buses? 35 Industries The Tech Could Transform

Norway's contributions to the space industry are the best in their field, driven by enthusiasm and interest in space. The Norwegian space industry currently consists of about 40 companies, large and small, in various locations across the country. They develop and produce everything from terminals for satellite communication to flowerpots for plant research in space, and sell their services from Antarctica in the south to Svalbard in the north. Telecommunications, i. Telenor Satellite Broadcasting AS has about employees.

Applications of 3D printing

Our mission is to help leaders in multiple sectors develop a deeper understanding of the global economy. Our flagship business publication has been defining and informing the senior-management agenda since Additive manufacturing AM —the process of making a product layer by layer instead of using traditional molding or subtractive methods—has become one of the most revolutionary technology applications in manufacturing. Once employed purely for prototyping, AM is now increasingly used for spare parts, small series production, and tooling. For manufacturing with metals, the ability to use existing materials such as steel, aluminum, or superalloys such as Inconel has significantly eased the process of adopting AM. Meanwhile, the number of materials that AM can handle is constantly expanding.

For a long time, the issue with 3D printing was that it has demanded very high entry costs, which does not allow profitable implementation to mass-manufacturers when compared to standard processes. However, recent market trends spotted have found that this is finally changing.

The technology sector includes everything from major companies that everyone knows, to players both big and small that operate largely behind the scenes. The category is also home to emerging companies of all sizes, start-ups, and billion-dollar household brands. In a broad sense, the category includes stocks involved with the research, creation, and distribution of technology-based goods or services. Hardware is the physical device -- a computer, a television, a smartphone, etc. Software is the computer code and platforms that make those devices work. Technology stocks offer investors a lot of opportunities. Those strong returns, however, do not mean the technology sector is without risks. Technology changes quickly, and one-time leaders can quickly fall behind, or even go out of business. In addition, promising emerging companies may make a huge splash, only to fade out quickly. Technology is an exciting space that includes trends from artificial intelligence AI , to smartphones, blockchain , self-driving technologies , the ongoing to trend to software-as-a-service SaaS , the Internet of Things IoT , streaming media services, and more.

The Norwegian Space Industry

Email: gro. The repair and maintenance of ophthalmic equipment, including surgical instruments and diagnostic devices, can be compared to the maintenance of a motor vehicle, something many of us understand well. If you had a car, would you drive it until the fuel runs out or until a tyre punctures, and then abandon it to buy a new car?

Maintenance is a crucial subject in medical equipment life cycle management. Evidence-based maintenance consists of the continuous performance monitoring of equipment, starting from the evidence—the current state in terms of failure history—and improvement of its effectiveness by making the required changes. This process is very important for optimizing the use and allocation of the available resources by clinical engineering departments.

Тем не менее он не имел видимых пределов, будучи ограничен прозрачным бирюзовым веществом, которое слабо светилось изнутри. И все же дворик был устроен так, чтобы не возникала опасность ощутить себя затерянным в бесконечном пространстве.

Невысокие стенки, едва доходившие Элвину до пояса, прерывались кое-где проходами и создавали впечатление уютной ограниченности, без которой в Диаспаре никто не мог чувствовать себя довольным. Когда Элвин появился, Хедрон как раз рассматривал одну из этих стенок. Она была покрыта тонкой мозаикой из разноцветных плиток, столь фантастически закрученной, что Элвин даже не попытался проследить ее детали.

- Взгляни на эту мозаику, Элвин, - сказал Шут. - Не замечаешь ли ты в ней чего-то необычного. - Нет, - признался Элвин после краткого ознакомления. - Мне она не нравится, - но в этом как раз нет ничего странного.

Sep 14, - The principles of 3D printing technology and its roles in industry The benefits of distributed production related to spare parts include lower solid-liquid, and multi-materials), and special materials (concrete, textile, etc.). the most efficient models of manufacturing regarding material and equipment.

Everything You Need to Know About Investing in Technology

По краям помещения с равными промежутками стояли какие-то аппараты с ручным управлением: каждый имел экран и сиденье для оператора. Хедрон дал Элвину наглядеться вдоволь. Затем он спросил, указывая на миниатюрный город: - Знаешь ли ты, что.

Элвин хотел было ответить: "Модель, я полагаю"; но ответ этот был столь очевиден, что наверняка являлся ошибочным. Поэтому он мотнул головой, ожидая, пока Хедрон сам ответит на свой вопрос. - Ты помнишь, - сказал Шут, - что я однажды рассказал тебе, каким образом управляется город, как Банки Памяти вечно хранят его застывший образ.

Вот эти Банки, это бездонное хранилище информации, полностью определяющее сегодняшний город - оно вокруг .

Equipment maintenance and repair

Вначале оно было скептическим: трудно было смириться с опровержением укоренившейся веры и самых глубоких предубеждений. Когда Элвин описывал им свое страстное желание изучить мир за пределами города, исходя из иррациональной убежденности, что такой мир существует, они разглядывали его как некое странное и непостижимое животное. В их понимании он действительно был таковым. Но в итоге они вынуждены были согласиться, что Элвин прав, а они -.

По мере того, как развертывалось повествование Элвина, рушились последние сомнения. Рассказ мог быть им неприятен, но они не могли отрицать его истинности - достаточно было хотя бы взглянуть на молчаливого спутника Элвина. Лишь одна часть его повести вызвала их негодование - и направлено оно было не на .

Additive manufacturing: A long-term game changer for manufacturers

Насколько хватал глаз, вокруг не было ничего, кроме леса и ровных пространств, заросших Олвин перевел взгляд на горизонт, и там, над кромкой деревьев, простираясь справа налево исполинской дугой, замыкающей в себе мир, темнела каменная гряда, по сравнению с которой даже самые гигантские сооружения Диаспара показались бы карликами.

Гряда эта лежала так далеко, что детали ее скрадывались расстоянием, но все-таки угадывалось в ее очертаниях что-то такое, что до глубины души поразило Олвина.

Наконец его глаза приноровились к пространствам этого необъятного ландшафта, и он понял, что эти каменные исполины были нерукотворны.

Хотя огромное насекомое подлетало на зов и иногда даже выполняло простые приказы, оно было почти лишено разума. Но все же оно, безусловно обладало собственной личностью и по какой-то причине с подозрением относилось к Элвину, чьи попытки завоевать его доверие всегда кончались ничем.

Даже если во Вселенной разумная жизнь еще и существовала, где теперь было ее искать. Он глядел на звезды, пылью рассыпанные по экрану корабля, и его мучила мысль, что время, оставшееся в его распоряжении, не позволяет ему исследовать их .

Оставался лишь один вопрос: что же именно следует Этот вопрос без ответа вывел его из состояния дремотной мечты. В таком беспокойном настроении он, однако, не мог оставаться дома.

В городе было лишь одно место, способное дать Когда он шагнул в коридор, часть стены замерцала и исчезла; ее поляризовавшиеся молекулы отозвались на лице дуновением, подобным слабому ветерку.

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