Results 101 to 110 of about 42,744 (314)

Employees of the Dayton-Wright Airplane Company work with aircraft wing skeletons at Plant 1

open access: yes, 1918
At Plant 1 of the Dayton-Wright Airplane Company employees work with aircraft wing skeletons, circa 1918. Large stacks of aircraft wing skeletons are visible throughout the photograph. The title of the negative is The Dayton Wright Airplane Co.
The Dayton-Wright Airplane Company
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Laser Powder Bed Fusion of Alumina: Effects of Scanning Strategies on External and Internal Defects

open access: yesAdvanced Engineering Materials, EarlyView.
This study investigates how scanning strategies affect pure alumina in laser powder bed fusion. Linear 45° scanning yields uniform surfaces but high porosity, while the island‐concentric strategy provides higher density with through‐holes favorable for infiltration. Findings highlight pathways toward optimizing defect‐free alumina parts.
Mohamed Abdelmoula   +7 more
wiley   +1 more source

"The Airplane"

open access: yes, 1921
n ...
openaire   +1 more source

Employees of the Motor Test Department of the Dayton-Wright Airplane Company July 25, 1918

open access: yes, 1918
The photograph is a group shot of the employees of the Motor Test Department of the Dayton-Wright Airplane Company. The photographer titled the negative The Dayton Wright Airplane Co. Motor Test Dept.
The Dayton-Wright Airplane Company
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Carboxylic‐Acid Functionalized Multiwalled Carbon Nanotube‐Alkane‐Based Resistive Temperature Sensor for Cold Chain Applications

open access: yesAdvanced Engineering Materials, EarlyView.
This study presents a reversible temperature sensor with high switching ratio, ∼103. The device is fabricated using PET‐ITO and carbon nanotube dispersions in alkane. Considering its application in cold chain logistics, a proof‐of‐concept with LED is showcased. Thus, a temperature drop below the threshold temperature (crystallization temperature of the
Sunil Kumar Behera   +8 more
wiley   +1 more source

Applied aeronautics, the airplane.

open access: yes, 1918
"Based primarily upon lectures given at the U.S.
United States. Bureau of Aircraft Production. Airplane Engineering Division.
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Planar Solid‐State Nanopores Toward Scalable Nanofluidic Integration Based on CMOS Technology

open access: yesAdvanced Engineering Materials, EarlyView.
We present a scalable silicon‐based fabrication strategy for planar solid‐state nanopores to enable their integration with complex nanofluidic systems. Prototype devices demonstrate normal voltage‐current characteristics, good noise performance, and appreciable streaming currents. Our CMOS‐compatible fabrication process offers precise geometric control
Ngan Hoang Pham   +7 more
wiley   +1 more source

Propeller production at the Dayton-Wright Airplane Company July 17, 1918

open access: yes, 1918
The photographic print shows two male employees of the Dayton-Wright Airplane Company shaping propellers from wood. The men use a machine to smooth out the propeller blades. The title of the negative is The Dayton-Wright Airplane Co.
The Dayton-Wright Airplane Company
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On the Lightweight Potential of Laser Additive Manufactured NiTi Triply Periodic Minimal Sheet Lattices

open access: yesAdvanced Engineering Materials, EarlyView.
This study explores the lightweight potential of laser additive‐manufactured NiTi triply periodic minimal surface sheet lattices. It systematically investigates the effects of relative density and unit cell size on surface quality, deformation recovery, compression behavior, and energy absorption.
Haoming Mo   +3 more
wiley   +1 more source

Interior view of the Dayton-Wright Airplane Company Plant 1 June 3, 1918

open access: yes, 1918
Employees of the Dayton-Wright Airplane Company work in an empty building of Plant 1. Signs can be seen hanging from the rafters. The title of the negative is labeled as The Dayton Wright Airplane Co. Dayton, Ohio. June 3-18.
The Dayton-Wright Airplane Company
core  

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