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The Raufoss Mk 211 is a .50 BMG (12.7×99mm NATO) multi-purpose anti-material high-explosive incendiary/armor-piercing ammunition projectile produced by Nammo under the model name NM140 MP. [1] It is commonly referred to as multipurpose or Raufoss , meaning red waterfall in Norwegian.
Raufoss Mk 211. High-explosive incendiary/armor-piercing ammunition (HEIAP) is a form of shell which combines armor-piercing capability and a high-explosive effect. In this respect it is a modern version of an armor-piercing shell. The ammunition may also be called semi-armor-piercing high-explosive incendiary (SAPHEI). [1]
Raufoss Ammunisjonsfabrikker was a Norwegian company based at Raufoss, established in 1896 as Rødfoss Patronfabrik. Initially the company manufactured ammunition, and later also other products, such as aluminium parts to the automotive industry. Until 1948 the company was a subordinate to the Norwegian Ministry of Defence.
The system is software controlled to meet specific threats. Indicators on the CVRJ front panel and Remote Control Unit (RCU) allow the operator to observe system health and diagnostic messages. Built-In-Test (BIT) routines run during system initialization and operation that notify the operator of system faults by illuminating indicators ...
The Raufoss .50 round itself is easily identified by its sea-green colored bullet tip over a underlying tip color of white/silver. The headstamp on the casing can also help to identify the round as Raufoss and some common headstamps include: HXP89, WCC94 & FN91; or HXP, WCC or FN with different 2-digit numbers as production year suffixes.
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FLACS software development started in-house in the early 1980s under the sponsorship program, Gas Explosion Safety (GSP), funded by the oil companies BP, Elf Aquitaine, Esso, Mobil, Norsk Hydro and Statoil. FLACS-86 was released to GSP sponsors in 1986. Continuous research and development from then onwards resulted in many commercial releases.
LS-DYNA originated from the 3D FEA program DYNA3D, developed by Dr. John O. Hallquist at Lawrence Livermore National Laboratory (LLNL) in 1976. [4] DYNA3D was created in order to simulate the impact of the Full Fuzing Option (FUFO) or "Dial-a-yield" nuclear bomb for low altitude release (impact velocity of ~ 40 m/s).