This report describes results on six years of research on how bacteria store nickel and then mobilize it into the active center of enzymes.

Video footage from the KXAS-TV/NBC 5 television station in Fort Worth, Texas, covering a news story.

Video footage from the KXAS-TV/NBC station in Fort Worth, Texas, to accompany a news story.

Video footage from the KXAS-TV/NBC station in Fort Worth, Texas, to accompany a news story.

The National Museum of the Pacific War presents an oral interview with Adrian Miller. Miller was born in Winamac, Indiana 16 November 1924 and graduated from high school in 1942. He entered the Army in March, 1944 and took his basic training at Ft. Blanding, Florida. He volunteered for the paratroopers at Fort Benning, Georgia and describes the six weeks of rigorous training, which included jumps. In November, he joined the 101st Army Airborne and was assigned to the 505th Parachute Infantry, Company H. Miller was sent to Bastogne and describes the conditions and the high casualty rate. After being relieved in January he went to Lorraine, France, then to Berchtesgaden, Germany where he met his brother. Miller was in Paris when Germany surrendered. On 15 December 1945, he returned to the United States on the Queen Mary. He was discharged January 1946.

The National Museum of the Pacific War presents an oral interview with Adrian Miller. Miller was born in Winamac, Indiana 16 November 1924 and graduated from high school in 1942. He entered the Army in March, 1944 and took his basic training at Ft. Blanding, Florida. He volunteered for the paratroopers at Fort Benning, Georgia and describes the six weeks of rigorous training, which included jumps. In November, he joined the 101st Army Airborne and was assigned to the 505th Parachute Infantry, Company H. Miller was sent to Bastogne and describes the conditions and the high casualty rate. After being relieved in January he went to Lorraine, France, then to Berchtesgaden, Germany where he met his brother. Miller was in Paris when Germany surrendered. On 15 December 1945, he returned to the United States on the Queen Mary. He was discharged January 1946.

This proposed research addresses one of the long outstanding fundamental problems in materials science, the mechanisms of deformation in amorphous metals. Due to the lack of long-range translational order, details of structural defects and their behaviors in metallic glasses have not been accessible in experiments. In addition, the small dimensions of the amorphous alloys made early by rapid quenching impose severe limit on many standard mechanical and microscopy testing. As a result, the microscopic mechanism of deformation in the amorphous materials has not been established. The recent success in synthesis of bulk metallic glass overcomes the difficulty in standard testing; but the barrier for understanding the defect process and microscopic mechanisms of deformation still remains. Amorphous metals deform in a unique way by shear banding. As a result, there is no work hardening, little macroscopic plasticity, and catastrophic failure. To retain and improve the inherent high strength, large elastic strain, and high toughness in amorphous metals, a variety of synthesis activities are currently underway including making metallic glass matrix composites. These new explorations call for a quantitative understanding of deformation mechanisms in both the monolithic metallic glasses as well as their composites. The knowledge is expected to give insight and …