Sustainability is at the forefront of the global economy, and as the impacts of climate change continue to be felt worldwide, countries have set new agendas that prioritize sustainable practices in both the public and private sectors. Lucrative government contracts...
The aerospace manufacturing industry in Saudi Arabia is set to soar, thanks to an increased focus on domestic manufacturing. However, as investment in the sector increases, so too does competition. One way that you can make your company more productive, efficient, and...
Electric vehicles (EVs) are the future of personal transportation. Countries worldwide have committed to reducing greenhouse gas emissions, and EVs have the potential to make a significant impact in that regard. With many countries providing subsidies for EVs, the...
As major markets show increased concern for environmentally friendly practices, companies worldwide are being forced to consider ways to make their products more ethical and sustainable. Product Lifecycle Management, or PLM, has become an important topic within...
The faster your fabricated components can be tested to ensure they operate appropriately, the faster you can proceed to production. Time saved on development not only saves your company money, but it also accelerates your product development pipeline, allowing your business to take on more designs. Hardware-in-the-loop (HiL) test systems allow you to automate many testing tasks and perform them faster with simulated testing and precise test bed control.
Global commitments to combat climate change differ, but there’s one point where nations are in agreement: we need a smarter energy grid. As new energy generation paradigms take hold in many countries, the energy grid must move towards a smart grid. Smart grids can be controlled by software and provide much more data to enable that control. In order to take advantage of this growing market, you need the best smart grid testbed system.
The auto manufacturing industry is consistently at the vanguard of manufacturing technology. From the assembly line to extensive use of automation, few other industries employ as many emerging technologies as the automotive industry does. Augmented reality (AR), which combines real environments with digital displays to provide information and visualizations, is quickly becoming the latest technology to be adopted by the automotive industry. How is AR changing the industry, and what impact will it have on your business?
The aerospace manufacturing industry is in the middle of a massive boom. With advancements in aerospace materials and technology, both governments and private aerospace manufacturers alike are looking to update and upgrade their equipment. In addition, the increased presence of private businesses in space means more opportunities for aerospace companies on the ground. To remain competitive in this changing landscape, aerospace companies need to embrace big data to drive their operations. Consider three key areas where data delivers results.
The automotive industry has always been at the vanguard of industrial innovation. Auto manufacturing first adopted the assembly line and later became the first industry to embrace automation with robotics. Auto manufacturers continue to press forward to look for ways to implement automation. Today, even suppliers need to evaluate how they can automate processes to remain competitive. Consider the latest trends in robotics in the auto industry and which tools you can adopt now to stay ahead of your competition.
Climate change continues to advance despite global efforts to reduce carbon emissions and halt rising temperatures. Although many investments into renewable energy sources have been made, many regions have yet to make necessary changes to their energy transmission infrastructure. Improving the grid is vital for reducing energy waste and maximizing the benefits of renewables. Why do utilities need to invest in better infrastructure, and what upgrades will have the biggest impact on energy efficiency?
As technology evolves, so too does manufacturing within the aerospace sector. These technologies are catalyzing advancements in test solutions, board electronics, mechanical systems, IoT, AR applications, and more in aerospace manufacturing. The introduction of 3D printing in aerospace has also enabled more efficient creation of complex and customized components, significantly impacting cost and weight parameters. This technological convergence is not just redefining processes but also reimagining the future of the aerospace industry.
Hydrogen energy is produced by electrolyzing water using electricity, ideally generated from renewable sources such as solar or wind power. In the future, renewable hydrogen is expected to play a vital role in decarbonizing various sectors, including transportation, industry, and power generation. Businesses that proactively explore renewable hydrogen now can position themselves ahead of the curve by researching its potential to reduce carbon emissions.