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Search Publications by: Gordon A. Shaw (Fed)

Displaying 76 - 100 of 103

Focused Ion Beam Manufacturing Methods for Nickel-Titanium Shape-Memory Alloy Thin Films

June 4, 2007

Author(s)

Gordon A. Shaw, Koo-Hyun Chung, Bin Ming, Andras Vladar

Nickel-titanium shape-memory alloy is an interesting and technologically relevant material that can recover large amounts of mechanical strain through a thermally-activated phase transformation. Because of is unusual properties, it has been used widely for

Traceable Micro-Force Sensor for Instrumented Indentation Calibration

April 10, 2007

Author(s)

Douglas T. Smith, Gordon A. Shaw, R M. Seugling, D Xiang, Jon R. Pratt

Instrumented indentation testing (IIT), commonly referred to as nanoindentation when small forces are used, is a popular technique for determining the mechanical properties of small volumes of material. Sample preparation is relatively easy, usually

A Piezoresistive Cantilever Force Sensor for Direct AFM Force Calibration

April 8, 2007

Author(s)

Jon R. Pratt, John A. Kramar, Gordon A. Shaw, Douglas T. Smith, John M. Moreland

We describe the design, fabrication, and calibration testing of a new piezoresistive cantilever force sensor suitable for the force calibration of atomic force microscopes in a range between tens of nanonewtons to hundreds of micronewtons. The sensor is

The Stiffness of Collagen Fibrils Influences Vascular Smooth Muscle Cell Phenotype

March 1, 2007

Author(s)

Dennis P. McDaniel, Gordon A. Shaw, John T. Elliott, Kiran Bhadriraju, Curtis W. Meuse, Koo-Hyun Chung, Anne L. Plant

Cells receive signals from the extracellular matrix through receptor-dependent interactions, but they are also influenced by the mechanical properties of the matrix. While bulk properties of substrates have been shown to effect cell behavior, we show here

Traceable Micro-Force Calibration for Instrumented Indentation Testing

February 13, 2007

Author(s)

Douglas T. Smith, Gordon A. Shaw, Richard Seugling, Jon R. Pratt, Dan Xiang

We describe the development, performance and application of an accurate SI-traceable force calibration and verification system for potential use in the field calibration of commercial instrumented indentation testing (IIT) instruments. The system consists

SI-Traceable Spring Constant Calibration of Microfabricated Cantilevers for Small Force Measurement

September 14, 2006

Author(s)

Gordon A. Shaw, John A. Kramar, Jon R. Pratt

A variety of methods exist to measure the stiffness of microfabricated cantilever beams such as those used as mechanical sensors in atomic force microscopy (AFM). In order for AFM to be used as a quantitative small force measurement tool, these methods

Calibration of Microfabricated Cantilevers for SI-Traceable Small Force Measurement

January 1, 2006

Author(s)

Gordon A. Shaw, Jon R. Pratt, John A. Kramar

A procedure is described by which the spring constant of a microfabricated cantilever beam can be calibrated for the measurement of small forces in an atomic force microscope (AFM) or other device. The procedure utilizes dynamic force instrumented

Force Calibration Via Electrostatics

January 1, 2006

Author(s)

Jon R. Pratt, John A. Kramar, Gordon A. Shaw, Lee Kumanchik

We describe the electrical and length measurements necessary to realize micronewton forces in a fashion consistent with the International System of Units (SI). We first discuss instrumentation and procedures required to accurately characterize an

New Reference Standards and Artifacts for Nanoscale Physical Property Characterization

January 1, 2006

Author(s)

Jon R. Pratt, John A. Kramar, Gordon A. Shaw, Richard S. Gates, Paul Rice, John M. Moreland

This paper provides an overview of calibration artifacts being developed at the National Institute of Standards and Technology (NIST) that are intended to aid the accurate determination of nanoscale physical properties across a broad range of applications

Use of Transfer Artifacts for Small Force Measurement

January 1, 2006

Author(s)

Gordon A. Shaw, Jon R. Pratt, Richard S. Gates, Mark Reitsma

In order for the atomic microscope (AFM) to be used in truly quantatitive studies, a basis within the international system of units (SI) must be established. In order to do this, the microfabricated cantilevers typically used for AFM force measurements

Mechanical Stability of Collagen Fibril Networks

November 1, 2005

Author(s)

Gordon A. Shaw, Dennis P. McDaniel, John T. Elliott, Alessandro Tona, Anne L. Plant

Thin films of type 1 collagen fibril networks fabricated on alkanethiol-functionalized surfaces have been previously shown to provide an excellent protein matrix for cultured cells in applications such as drug toxicity studies and studies of cell signaling

Development of Traceable Small Force Standards

June 1, 2005

Author(s)

Gordon A. Shaw, Jon R. Pratt

Although instrumented indentation and atomic forcve microscope (AFM) are utilized extensively for the measurement of forces in the piconewton to millinewton regime, accurate calibration of these forces remains an obstacle to quantitative research

Incoporating Process Planning into Conceptual Design

September 1, 1999

Author(s)

Shaw C. Feng, Gordon A. Shaw, Walter W. Nederbragt, Serge Kaing, Ram D. Sriram

This paper describes recent developments in the Design and Process Planning Integration (DPPI) project at the National Institute of Standards and Technology (NIST). The project addresses the need for improved communication between design and process