Optimizing Innovation in Machine Design

whitePaper | January 11, 2023

Manufacturing industries have been a source of social and economic growth for both developed and emerging economies. Today they stand at a critical juncture. The increase in global disruptions, from geopolitical and macroeconomic events to the accelerating pace of technological innovation, is having a profound impact on the state of global production systems and is forcing unprecedented transformation across value chains.

whitePaper | January 1, 2020

With over 2,800 campaigns each year delivered through a team of 300+ digital, data, and technology specialists, Deck 7 is a first resource for B2B demand generation services for marketers worldwide. Clients leverage Deck 7’s multichannel content marketing services and Media 7’s network of 30+ online publications for content syndication to engage over 95 million buyers across 16 industries and 120+ countries.

whitePaper | November 12, 2022

Since the first Industrial Revolution, the manufacturing process has been revolutionised from water and steam-powered machines to electrical and automated ones. The term "Industry 4.0" or simply I4 was introduced by the German government in 2011, which encourages the use of modern technology in the manufacturing process. It defines that automation technology can be improved by offering different methods of self-configuration, self-optimisation and self-diagnosis. The fourth era of revolution (Industry 4.0) is all about connectivity trends, advanced material, processing technology, service orientation and collaboration in advanced manufacturing networks. It presents a unique level of control and coordination over the whole value chain of the products. Internet of things (IoT) and machine to machine communication (M2M) are merged to improve communication and automation. It creates a new set of design principles for effective and computerised control of the manufacturing process which includes

whitePaper | June 29, 2023

In recent years, metal 3D printing has risen to prominence as a fabrication method of the future. The technology has shown promise and generated hype — however, until recently it didn’t provide enough value for most businesses to consider adopting. Today, metal 3D printing has become more accessible, scalable, and robust.

whitePaper | November 30, 2022

The promise of metal additive manufacturing (AM) to completely transform how core parts are produced has largely been just that: a promise. The ability to 3D print parts has been deployed across countless industries, but limitations within conventional iterations of metal AM have relegated the technology to use primarily in prototyping or niche use cases.

whitePaper | September 4, 2022

It’s the clarion call of today’s marketplace and the prime directive for executives in any business that designs or produces physical goods, no matter how simple or sophisticated. Fortunately, every product can be improved and made at less cost. But how quickly a company can satisfy such demands – before, say, its competitors do, or the market moves on to something new – is largely a function of the product-development cycle. Shorten that cycle, and you can improve the numbers across the board, from customer satisfaction to market share to profitability. However, one seemingly intractable barrier to faster product development lies within the traditional design process. That process starts with identifying a need in the market or within one’s organization; it ends with the manufacture of a finished product, whether a massive, complex assembly or one tiny part. In between are multiple iterations of designs and tests: engineers sketch out a solution, prototype and test it (or run a computerized simulation), and then go back to the design to address any shortcomings. But trade-offs complicate matters each time the cycle repeats: make a part lighter and it’s likely to become weaker, make it stronger and it will probably cost more, and so on. A workable, if not optimal, solution can usually be found. However, finding it often takes longer than the product-development timeline or budget will allow.