Ali Minachi from 3762 Monterey Ct NE, Seattle, WA 98056, age 64

Resumes

Director Of Ultrasonic Systems

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Location:

San Antonio, TX

Industry:

Law Practice

Work:

Independent
Director of Ultrasonic Systems

Education:

Iowa State University 1982 - 1992
Doctorates, Doctor of Philosophy, Aerospace Engineering, Engineering, Philosophy

Skills:

Customer Service
Energy
Engineering
Gas
Inspection
Management
Microsoft Excel
Microsoft Office
Petrochemical
Petroleum

Business Records

Name / Title

Company / Classification

Phones & Addresses

Ali Minachi
Director , Secretary

ISLAMIC FOUNDATION OF SAN ANTONIO
Religious Organization

4139 Gardendale St, San Antonio, TX 78229
11933 Perrin Beitel Rd, San Antonio, TX 78217
9015 Wellesley Mnr Dr, San Antonio, TX 78240

Publications

Us Patents

Device For Precision Measurement Of Speed Of Sound In A Gas

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US Patent:

6823716, Nov 30, 2004

Filed:

Apr 3, 2003

Appl. No.:

10/406518

Inventors:

Eric Kelner - San Antonio TX
Ali Minachi - San Antonio TX
Thomas E. Owen - Helotes TX
Marion Burzynski, Jr. - Converse TX
Steven P. Petullo - Fairfax VA

Assignee:

Southwest Research Institute - San Antonio TX

International Classification:

G01N 2918

US Classification:

73 2406, 73597

Abstract:

A sensor for measuring the speed of sound in a gas. The sensor has a helical coil, through which the gas flows before entering an inner chamber. Flow through the coil brings the gas into thermal equilibrium with the test chamber body. After the gas enters the chamber, a transducer produces an ultrasonic pulse, which is reflected from each of two faces of a target. The time difference between the two reflected signals is used to determine the speed of sound in the gas.

Averaged Guided Wave Inspection Technology For Ribbon Cable

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US Patent:

6766693, Jul 27, 2004

Filed:

Jun 4, 2003

Appl. No.:

10/454349

Inventors:

Glenn M. Light - San Antonio TX
Ali Minachi - San Antonio TX
Kevin M. Carpenter - Frisco TX

Assignee:

Southwest Research Institute - San Antonio TX

International Classification:

G01N 924

US Classification:

73622, 73624, 73634

Abstract:

Averaged guided wave inspection method for a throttle cable is disclosed. Access to the engine end of the throttle cable is obtained and a transducer is applied to an end of the ribbon cable. The transducer generates an ultrasonic guided wave in the cable. The ultrasonic guided wave propagates down the entire length of the cable and reflects back from any discontinuity in the cross section of the ribbon cable. By determining the time needed for the reflected wave to travel back to the receiver, the location of any defect along the length of the cable can be determined. By moving the ribbon cable and transducer to different positions with respect to the sheath of the throttle cable, repeating the prior steps and averaging, unwanted noise caused by external influences is eliminated.

Corrosion Rate Monitoring Using Ultrasound, And Associated Systems And Methods

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US Patent:

20200209143, Jul 2, 2020

Filed:

Aug 14, 2018

Appl. No.:

16/639097

Inventors:

- Kent WA, US
Ali Minachi - Kent WA, US

Assignee:

Quest Integrated, LLC - Kent WA

International Classification:

G01N 17/04

Abstract:

Systems and methods for determining rate of corrosion in pipes and other structures are disclosed herein. In one embodiment, a method for measuring a rate of corrosion progress in a specimen includes: generating a first initial pulse into the specimen by an ultrasonic transducer, and acquiring a first reflected waveform from the specimen. The first reflected waveform includes a first reflection of the first waveform and a second reflection of the first waveform. The method also includes generating a second initial pulse into the specimen by the ultrasonic transducer. The first initial pulse and the second initial pulse are separated by a time period. The method also includes acquiring a second reflected waveform from the specimen. The second reflected waveform includes a first reflection of the second waveform and a second reflection of the second waveform.

Systems And Methods For Specimen Inspection Using Ultrasonic Wave Generation

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US Patent:

20180128784, May 10, 2018

Filed:

Oct 25, 2017

Appl. No.:

15/793837

Inventors:

- Kent WA, US
Phillip D. Bondurant - Covington WA, US
Ali Minachi - Kent WA, US

Assignee:

Quest Integrated, LLC - Kent WA

International Classification:

G01N 29/26
G01N 29/04
G01N 29/44
G01N 29/24

Abstract:

Systems and methods for specimen inspection using ultrasonic wave generation are disclosed herein. In one embodiment, an apparatus for inspecting a solid object using ultrasound includes: a pulser having pulser ports for outputting electrical signals. The apparatus also includes a switching array for receiving the signals from the pulser ports as individual channels, and routing the signals to individual elements of a transmitter array. The apparatus also includes the transmitter array, where each element of the transmitter array generates ultrasound in the solid object in response to the signal received from the switching array.

Ali Minachi

Ali Minachi Phones & Addresses

Work

Education

Skills

Industries

Resumes

Resumes

Director Of Ultrasonic Systems

Business Records

Publications

Us Patents

Device For Precision Measurement Of Speed Of Sound In A Gas

Averaged Guided Wave Inspection Technology For Ribbon Cable

Corrosion Rate Monitoring Using Ultrasound, And Associated Systems And Methods

Systems And Methods For Specimen Inspection Using Ultrasonic Wave Generation

Ali Minachi San Antio TX