Software

Compression Molding Press

Beckwood Press Company
Fenton, MO
636-343-4100
www.beckwood.com

Beckwood Press Company, a company that specializes in the design and manufacturing of custom hydraulic presses, automation systems, and the Triform line of precision forming equipment, was recently awarded a contract by the United States Army—Natick Soldier Research, Development & Engineering Center (NSRDEC) to produce a custom 1,000-ton hydraulic press that will be used to consolidate ballistic composites in a compression molding application.

Posted in: Application Briefs, Defense, Thermal Management, Manufacturing & Prototyping, Rapid Prototyping & Tooling, Machinery, Mechanical Components, MEMs, Motion Control, Automation, Sensors, Software
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New Products: December 2018 Aerospace & Defense Technology

Round TFT LCD Displays

Data Image (Winter Park, FL) has announced new round TFT LCD color displays in two sizes: 3" and 4.2" in diameter. They can be used as digital avionics, power meters, speedometers, rpm gauges, temperature indicators, strain gauges, volt/current meters or a simple clock. The display can show a single gauge or display multiple parameters. The formats for the displays are 432 × 432 for the 3" and 720 × 720 for the 4.2". Both have a brightness of 1000 nits typical and wide viewing angles thanks to the IPS glass technology used on both versions. Both have wide temperature rating. They are available with or without capacitive touch panels for user interface.

Posted in: Products, Aerospace, Communications, Wireless, Defense, Board-Level Electronics, Computers, Electronic Components, Electronics, Electronics & Computers, Power Management, Power Supplies, Displays/Monitors/HMIs, Fastening, Joining & Assembly, Mechanical Components, Motion Control, Motors & Drives, Positioning Equipment, Lasers & Laser Systems, Photonics, Computer-Aided Design (CAD), Computer-Aided Engineering (CAE), Computer-Aided Manufacturing (CAM), Simulation Software, Software, Instrumentation, Measuring Instruments, Monitoring, Test & Measurement
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Reusable Rapid Prototyped Blunt-Impact Simulator

Rapid prototyping (RP) is the term most commonly used to describe additive manufacturing technologies. An additive manufacturing technology is any manufacturing process that fabricates a part by adding one layer of material at a time, one on top of the other, to produce detailed 3-D geometries directly from 3-D computer-aided design (CAD) models.

Posted in: Briefs, Aerospace, Defense, Electronic Components, Electronics, Electronics & Computers, 3 D Printing & Additive Manufacturing, Manufacturing & Prototyping, Rapid Prototyping & Tooling, Simulation Software
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Lightweighting Parts Using 3D Metal Printing

Metal additive manufacturing (3D printing), also known as Direct Metal Laser Sintering (DMLS) or Powder Bed Fusion (PBF), is changing the way metal parts are designed and produced. New software, processes and materials are redefining manufacturing value equations for specific types of parts, which can lead to improvements on existing products, new business models and new markets.

Posted in: Articles, Aerospace Manufacturing and Machining, Aeronautics, Aerospace, Aviation, Defense, 3 D Printing & Additive Manufacturing, Manufacturing & Prototyping, Materials, Metals, Computer-Aided Design (CAD), Computer-Aided Engineering (CAE), Computer-Aided Manufacturing (CAM), Simulation Software, Software
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2018 Create the Future Design Contest: Aerospace & Defense Category Winner

DETECTING PLASTIC LANDMINES

Hidden PFM-1 anti-personnel landmines are unexploded ordnance (UXO) devices that pose a difficult challenge to conventional landmine detection methods like metal detecting because the mines are primarily composed of plastic and only weigh 75 g. As a remnant of the Soviet-Afghan War, there are an estimated 10 million such devices scattered throughout Afghanistan. These mines remain in isolated locations, frequently out of reach of de-mining nongovernmental organizations (NGOs) and act to thwart local economic and social development. The PFM-1s are infamously referred to as “toy mines,” as children often mistake the mines for toys and set off the 525 kg of cumulative pressure it takes to detonate them.

Posted in: News, Articles, Aeronautics, Aerospace, Aviation, Batteries, Power Management, Power Supplies, Green Design & Manufacturing, Imaging, Composites, Materials, Metals, Data Acquisition, Detectors, Sensors, Software
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Optimizing Winglets for More Efficient Flight

Airplane winglets reduce drag, which can translate to higher speed or to allow a pilot to throttle back and save fuel. It also helps to reduce wingtip vortices that can be problematic for airplanes flying in their wake. Although winglets have been around since the mid-1970s, there is still a wide variety of shapes, sizes, and angles.

Posted in: INSIDER, News, Defense, Simulation Software
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T-45 Virtual/Augmented Reality Training Technology

Bohemia Interactive Simulations (BISim)
Orlando, FL
1-407-608-7000
https://bisimulations.com

Bohemia Interactive Simulations (BISim), a global developer of advanced simulation and training software, has been selected by the U.S. Navy to provide air crew training technology that leverages emerging augmented and virtual reality technologies. Supporting the Chief of Naval Air Training (CNATRA) via PMA-205 and the Naval Air Warfare Center Training Systems Division (NAWCTSD), BISim will provide an augmented reality visual system that enables trainees to interact with a physical T-45 simulator cockpit while immersed in a high-fidelity virtual environment displayed in a head mounted display (HMD).

Posted in: Application Briefs, Aeronautics, Aerospace, Aviation, Defense, Displays/Monitors/HMIs, Imaging, Visualization Software, Simulation Software, Software
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Digital Transformation for a CONNECTED ENTERPRISE

Manufacturers around the world are grappling with the challenge of continuous innovation in the face of increasing complexity. In aerospace and defense (A&D), complexity is nothing new, but digital transformation to become a more connected enterprise that allows programs to run independently while achieving enterprise-wide processes remains an elusive goal. Today, organizations around the world are rethinking their strategies and turning to more open and agile approaches to create a connected enterprise that can enable faster innovation.

Posted in: Articles, Aerospace, Data Acquisition, Defense, Electronic Components, Electronics, Electronics & Computers, 3 D Printing & Additive Manufacturing, Industrial Controls & Automation, Manufacturing & Prototyping, Rapid Prototyping & Tooling, Data Acquisition, Computer-Aided Design (CAD), Computer-Aided Engineering (CAE), Computer-Aided Manufacturing (CAM), Electronics & Computers, Simulation Software, Software, Test & Measurement
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Maintaining Enterprise Resiliency Via Kaleidoscopic Adaption and Transformation of Software Services (MEERKATS)

This research investigates a new vision for increasing the resilience of computing clouds by elevating continuous change, evolution, and misinformation as first-rate design principles of the cloud's infrastructure. The work is motivated by the fact that today's clouds are very static, uniform, and predictable, allowing attackers who identify a vulnerability in one of the services or infrastructure components to spread their effect to other, mission-critical services. The goal is to integrate into clouds a new level of unpredictability for both their services and data so as to both impede an adversary's ability to achieve an initial system compromise and, if a compromise occurs, to detect, disrupt, and/or otherwise impede their ability to exploit this success.

Posted in: Briefs, Aerospace, Data Acquisition, Defense, Computers, Electronic Components, Electronics & Computers, Software
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Space Debris Orbit and Attitude Prediction for Enhanced and Efficient Space Situational Awareness

This research deals with the problem of modelling the orbit and attitude motion of uncontrolled manmade objects in orbit about the Earth, which tumble due to the natural influences of the near-Earth space environment. A mathematical, physics-based and computational approach is taken to model the forces and torques that drive the orbit and attitude evolution of such objects. The main influence modelled is solar radiation pressure (SRP), which is the interaction of solar electromagnetic radiation with the surface of an object, leading to both forces and torques that influence the orbital and attitude motion. Other influences, such as the gravitational field of the Earth, are also modelled.

Posted in: Briefs, Aerospace, Imaging, Materials, Simulation Software, Transportation
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