Direct support and general support repair parts and special tools list (including depot maintenance repair parts and special tools list) for crane, wheel mounted, 20 ton at 10 foot radius, 2 engines, diesel engine driven, 4 x 4 air transportable, Harnischfeger Corp. model M320RT, (NSN 3810-00-275-1167).

Includes index.

Direct support, general support, and depot maintenance manual : crane, wheel mounted; 5 ton at 10-foot radius, diesel engine driven, 4x4, rough terrain, air transportable, (Hanson Machinery Company, model H446A), FSB 3810-859-2404.

"Jult 1973."

Direct support and general support repair parts and special tools lists (including depot maintenance repair parts and special tools lists) : crane, wheel mounted, 5 ton at 10 foot radius, 3/8 cu yd, diesel engine driven, 4x4, rough terrain, air transportable (Hanson Machinery Co. model H446A), FSN 3810-859-2404.

"December 1971."

Direct support and general support maintenance manual for crane, wheel mounted, 20-ton at 10-foot radius, 2 engines, diesel engine driven, 4x4 air transportable, Harnischfeger Corp. model M320RT (NSN 3810-00-275-1167).

"September 1977."

Operator's and organizational maintenance manual : crane, wheel mounted, 20-ton at 10-foot radius, 2 engines, diesel engine driven, 4 x 4 air transportable, Harnischfeger Corp. model M320RT (NSN 3810-00-275-1167).

Includes indexes.

Direct support and general support maintenance manual : crane, wheel mounted, 5 ton capacity at 10-foot radius, 3/8 cu yd; 1 engine, diesel driven, 4 x 4 (Hanson Machinery model H446), FSN 3810-948-0407.

Includes index.

Organizational maintenance repair parts and special tools lists : crane, wheel mounted, 20-ton at 10-foot radius, 2 engines, diesel engine driven, 4 x 4 air transportable for Harnischfeger Corp. model M320RT (NSN 3810-00-275-1167).

Includes index.

Organizational maintenance repair parts and special tools lists : crane, wheel mounted: 5 ton capacity at 10-foot radius, 3/8 cu. yd; 1 engine diesel driven, 4 x 4 air transportable (Hanson Machinery model H446), FSN 3810-948-0497.

Includes index.

Operator and organizational maintenance manual : crane, wheel mounted, 5 ton capacity at 10-foot radius, diesel engine driven, 4x4, rough terrain, air transportable (Hanson Machinery Company model H446A), FSN 3810-859-2404.

"July 1973."

Intermediate direct support and intermediate general support maintenance repair parts and special tools lists ... : crane, wheel mounted, 20 ton at 10 foot radius, 2 engines, diesel engine driven, 4x4, air transportable, phase III; w/blade, bulldozer, earth moving; w/block, tackle, 20 ton; w/boom, crane 30 foot, Army model M2380 ....

"November, 1988."

Effect of cyclic pneumatic soft tissue compression on simulated distal radius fractures

We investigated the effect of pneumatic pressure applied to the proximal musculature of the sheep foreleg on load at the site of a transverse osteotomy of the distal radius. The distal radii of 10 fresh sheep foreleg specimens were osteotomized and a pressure sensor was inserted between the two bone fragments. An inflatable cuff, connected to a second pressure sensor, was positioned around the proximal forelimb musculature and the leg then was immobilized in a plaster cast. The inflatable cuff was inflated and deflated repeatedly to various pressures. Measurements of the cuff pressure and corresponding change in pressure at the osteotomy site were recorded. The results indicated that application of pneumatic pressure to the proximal foreleg musculature produced a corresponding increase in load at the osteotomy site. For the cuff pressures tested (109.8-238.4 mm Hg), there was a linear correlation with the load at the osteotomy site with a gradient of 12 mm Hg/N. It is conceivable, based on the results of this study, that a technique could be developed to provide dynamic loading to accelerate fracture healing in the upper limb of humans.

Phakometric measurement of ocular surface radius of curvature and alignment: evaluation of method with physical model eyes

Ophthalmophakometric measurements of ocular surface radius of curvature and alignment were evaluated on physical model eyes encompassing a wide range of human ocular dimensions. The results indicated that defocus errors arising from imperfections in the ophthalmophakometer camera telecentricity and light source collimation were smaller than experimental errors. Reasonable estimates emerged for anterior lens surface radius of curvature (accuracy: 0.02–0.10 mm; precision 0.05–0.09 mm), posterior lens surface radius of curvature (accuracy: 0.10–0.55 mm; precision 0.06–0.20 mm), eye rotation (accuracy: 0.00–0.32°; precision 0.06–0.25°), lens tilt (accuracy: 0.00–0.33°; precision 0.05–0.98°) and lens decentration (accuracy: 0.00–0.07 mm; precision 0.00–0.07 mm).

Delay of light in an optical bottle resonator with nanoscale radius variation : dispersionless, broadband, and low-loss

It is shown theoretically that an optical bottle resonator with a nanoscale radius variation can perform a multinanosecond long dispersionless delay of light in a nanometer-order bandwidth with minimal losses. Experimentally, a 3 mm long resonator with a 2.8 nm deep semiparabolic radius variation is fabricated from a 19??µm radius silica fiber with a subangstrom precision. In excellent agreement with theory, the resonator exhibits the impedance-matched 2.58 ns (3 bytes) delay of 100 ps pulses with 0.44??dB/ns intrinsic loss. This is a miniature slow light delay line with the record large delay time, record small transmission loss, dispersion, and effective speed of light.

Delay of light in an optical bottle resonator with nanoscale radius variation:dispersionless, broadband, and low-loss

It is shown theoretically that an optical bottle resonator with a nanoscale radius variation can perform a multinanosecond long dispersionless delay of light in a nanometer-order bandwidth with minimal losses. Experimentally, a 3 mm long resonator with a 2.8 nm deep semiparabolic radius variation is fabricated from a 19??µm radius silica fiber with a subangstrom precision. In excellent agreement with theory, the resonator exhibits the impedance-matched 2.58 ns (3 bytes) delay of 100 ps pulses with 0.44??dB/ns intrinsic loss. This is a miniature slow light delay line with the record large delay time, record small transmission loss, dispersion, and effective speed of light.