George SfeirLafayette, LA

7401518, Jul 22, 2008

Sep 1, 2007

11/849287

George M. Sfeir - Lafayette LA, US
Jeffrey S. Banks - Crosby TX, US
Dennis L. Rogers - Houston TX, US

Technical Industries, Inc. - Lafayette LA

G01N 9/24

73602, 73599, 73620, 73625

A method for inspection of tubular goods includes using ultrasonic detection means to obtain wall thickness measurement of discrete sections of a tubular good and recording each measurement in association with both the longitudinal and circumferential position at which each measurement was obtained. Accordingly each measurement of wall thickness represents a small portion of the wall thickness of said tubular in three dimensional space. A plurality of said measurements may thereby be displayed by computer means in virtual three dimensional format. Differing wall thickness readings made be represented by different shading or color display, so that anomalies of interest may be readily detected. Alternatively the recorded information may be readily processed by computer means to calculate the effect of stressors on the wall of said tubular good.

7552640, Jun 30, 2009

Jun 11, 2008

12/137341

George M. Sfeir - Lafayette LA, US
Jeffrey S. Banks - Crosby TX, US
Dennis L. Rogers - Houston TX, US

G01N 9/24

73602, 73599, 73620, 73625

A method for inspection of tubular goods includes using ultrasonic detection means to obtain wall thickness measurement of discrete sections of a tubular good and recording each measurement in association with both the longitudinal and circumferential position at which each measurement was obtained. Accordingly each measurement of wall thickness represents a small portion of the wall thickness of said tubular in three dimensional space. A plurality of said measurements may thereby be displayed by computer means in virtual three dimensional format. Differing wall thickness readings made be represented by different shading or color display, so that anomalies of interest may be readily detected. Alternatively the recorded information may be readily processed by computer means to calculate the effect of stressors on the wall of said tubular good.

7997138, Aug 16, 2011

Jun 29, 2009

12/494053

George M. Sfeir - Lafayette LA, US
Jeffrey S. Banks - Crosby TX, US
Dennis L. Rogers - Houston TX, US

G01N 9/24

73602, 73599, 73620, 73625

A method for predicting the performance of tubular goods includes using a computer readable three-dimensional representation of tubular good which includes computer readable measurements of discrete segments of the wall of said tubular acquired by ultrasonic detection means, along with associated data representing the position of discrete segment and optionally ovality data to predict the effect of stress conditions, including tensile, bending, collapse, burst and aging forces upon said tubular and optionally analyzing sequential inspection of the same tubular good over a period of time predict when failure is likely to occur, and to avoid failure while maximizing the use of the tubular good.

2006022, Oct 12, 2006

Mar 8, 2004

10/548731

George Sfeir - Lafayette LA, US

G01N 29/04

073602000

A method for inspection of tubular goods includes using ultrasonic detection means to obtain wall thickness measurement of discrete sections of a tubular good and recording each measurement. In association with both the longitudinal and circumferential position at which each measurement was obtained. Accordingly each measurement of wall thickness represents a small portion of the wall thickness of said tubular in three dimensional space. A plurality of said measurements may thereby be displayed by computer means in virtual three dimensional formal. Differing wall thickness readings made he represented by different shading or color display, so that anomalies of interest may be readily detected. Alternatively the recorded information may be readily processed by computer means to calculate the effect of stressors on the wall of said tubular good.

2011029, Dec 1, 2011

Aug 10, 2011

13/207135

George M. Sfeir - Lafayette LA, US
Jeffrey S. Banks - Crosby TX, US
Dennis L. Rogers - Houston TX, US

TECHNICAL INDUSTRIES, INC. - Lafayette LA

G01N 29/04

73602

A method for predicting the performance of tubular goods includes using a computer readable three-dimensional representation of tubular good which includes computer readable measurements of discrete segments of the wall of said tubular acquired by ultrasonic detection means, along with associated data representing the position of discrete segment and optionally ovality data to mathematically calculate, by computer means, the effect of stress conditions, including tensile, bending, collapse, burst and aging forces upon said tubular and optionally analyzing sequential inspection of the same tubular good over a period of time predict when failure is likely to occur, and to avoid failure while maximizing the use of the tubular good.