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Federico Bellin Phones & Addresses

  • Orem, UT
  • 39 Butternut Grove Pl, Tomball, TX 77375 (832) 696-2297
  • The Woodlands, TX
  • Salt Lake City, UT
  • 8900 Research Park Dr APT 71, Spring, TX 77381

Work

Company: Varel international energy services Jun 1, 2016 Position: R and d manager

Education

Degree: Masters Specialities: Materials Science, Metallurgical Engineering

Skills

Materials • Drilling • Manufacturing • Finite Element Analysis • R&D • Process Engineering • Petroleum • Engineering • Design of Experiments • Pro Engineer • Metallurgy • Scanning Electron Microscopy • Materials Science • Ansys • Matlab • Laboratory • Research and Development • Lean Manufacturing • Oil and Gas • Laboratory Experience • Minitab • Abaqus • Doe • Proengineer • Pronc • Microsoft Excel • Microsoft Office • Spreadsheets • Continuous Improvement • Cost Reduction • Team Leadership • Quality Assurance • Product Reliability • Margin Improvement

Languages

English • Italian • French • Latin

Ranks

Certificate: Excel 2016: Pivot Tables In Depth

Industries

Oil & Energy

Resumes

Resumes

Federico Bellin Photo 1

Mechanical Design Engineer

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Location:
Houston, TX
Industry:
Oil & Energy
Work:
Varel International Energy Services
R and D Manager

Varel International Energy Services 2009 - 2011
R and D Senior Engineer

Smith International Megadiamond 2005 - 2009
Senior Engineer

Smith International Sep 1998 - Jul 2006
R and D Manager

Drillmec S.p.a. Sep 1998 - Jul 2006
Mechanical Design Engineer
Skills:
Materials
Drilling
Manufacturing
Finite Element Analysis
R&D
Process Engineering
Petroleum
Engineering
Design of Experiments
Pro Engineer
Metallurgy
Scanning Electron Microscopy
Materials Science
Ansys
Matlab
Laboratory
Research and Development
Lean Manufacturing
Oil and Gas
Laboratory Experience
Minitab
Abaqus
Doe
Proengineer
Pronc
Microsoft Excel
Microsoft Office
Spreadsheets
Continuous Improvement
Cost Reduction
Team Leadership
Quality Assurance
Product Reliability
Margin Improvement
Languages:
English
Italian
French
Latin
Certifications:
Excel 2016: Pivot Tables In Depth
Excel 2016: Charts In Depth

Publications

Us Patents

Polycrystalline Diamond Cutting Element Structure

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US Patent:
8353370, Jan 15, 2013
Filed:
Dec 8, 2010
Appl. No.:
12/963088
Inventors:
Federico Bellin - Orem UT, US
Yi Fang - Provo UT, US
Michael Stewart - Provo UT, US
Nephi M. Mourik - Provo UT, US
Peter Thomas Cariveau - Spring TX, US
Assignee:
Smith International, Inc. - Houston TX
International Classification:
E21B 10/36
US Classification:
175431, 175432, 175428
Abstract:
A cutting element includes a substrate having an interface surface; and an ultrahard material layer disposed on the interface surface. An interface surface includes a plurality of surface features, wherein at least one of the plurality of surface features intersects a neighboring surface feature at a height that is intermediate an extremity of the at least one of the plurality of surface features and a base of the at least one of the plurality of surface features.

Highly Wear Resistant Diamond Insert With Improved Transition Structure

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US Patent:
8573330, Nov 5, 2013
Filed:
Aug 6, 2010
Appl. No.:
12/851874
Inventors:
Nephi M. Mourik - Provo UT, US
Peter T. Cariveau - Draper UT, US
Federico Bellin - The Woodlands TX, US
Yi Fang - Provo UT, US
Assignee:
Smith International, Inc. - Sugar Land TX
International Classification:
E21B 10/36
E21B 10/567
US Classification:
1754202, 1754051, 175428, 175434
Abstract:
An insert for a drill bit may include a metallic carbide body; an outer layer of polycrystalline diamond material on the outermost end of the insert, the polycrystalline diamond material comprising a plurality of interconnected first diamond grains and a first binder material in interstitial regions between the interconnected first diamond grains; and at least one transition layer between the metallic carbide body and the outer layer, the at least one transition layer comprising a composite of second diamond grains, first metal carbide particles, and a second binder material, wherein the second diamond grains have a larger grain size than the first diamond grains.

Polycrystalline Diamond Material With High Toughness And High Wear Resistance

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US Patent:
8579053, Nov 12, 2013
Filed:
Aug 6, 2010
Appl. No.:
12/851677
Inventors:
Federico Bellin - The Woodlands TX, US
Yi Fang - Provo UT, US
Michael Stewart - Provo UT, US
Nephi M. Mourik - Provo UT, US
Peter T. Cariveau - Draper TX, US
Assignee:
Smith International, Inc. - Houston TX
International Classification:
E21B 10/36
E21B 10/567
US Classification:
175434, 1754051, 1754202, 175428
Abstract:
A cutting element that includes a substrate; and an outer layer of polycrystalline diamond material disposed upon the outermost end of the cutting element, wherein the polycrystalline diamond material: a plurality of interconnected diamond particles; and a plurality of interstitial regions disposed among the bonded diamond particles, wherein the plurality of interstitial regions contain a plurality of metal carbide phases and a plurality of metal binder phases together forming a plurality of metallic phases, wherein the plurality of metal carbide phases are formed from a plurality of metal carbide particles; wherein the plurality of interconnected diamond particles form at least about 60 to at most about 80% by weight of the polycrystalline diamond material; and wherein the plurality of metal carbide phases represent at least 50% by weight of the plurality of metallic phases is disclosed.

Acoustic Emission Toughness Testing Having Smaller Noise Ratio

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US Patent:
8596124, Dec 3, 2013
Filed:
Jun 2, 2011
Appl. No.:
13/152126
Inventors:
Federico Bellin - The Woodlands TX, US
Assignee:
Varel International Ind., L.P. - Carrollton TX
International Classification:
G01N 29/14
G01N 3/48
US Classification:
73587, 73 81
Abstract:
A method, system and apparatus for testing properties of a hard component. The apparatus includes a holder, a component, an indenter, a sensor holder, and an acoustic sensor. The holder includes a first end and a second end opposite the first end. The first end defines a first cavity extending towards the second end. The component is positioned in the first cavity. The indenter is positioned adjacent to a portion of the component and applies a load onto the component. The sensor holder includes an upper portion, a lower portion, and a second cavity therein. The upper portion is coupled to the second end. The sensor is positioned within the second cavity. In some embodiments, the apparatus includes a rod coupled to the lower portion. The rod has a lower acoustic impedance than the sensor holder, thereby allowing sound waves to pass through the sensor holder and not be reflected back into the sensor.

Method For Making Composite Abrasive Compacts

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US Patent:
20100005728, Jan 14, 2010
Filed:
Jul 8, 2009
Appl. No.:
12/499679
Inventors:
FEDERICO BELLIN - Orem UT, US
International Classification:
C09K 3/14
B01J 3/06
C01B 21/064
US Classification:
51309, 423446, 423290
Abstract:
The present invention relates to polycrystalline ultra hard material cutting elements, and more particularly to a method of forming a polycrystalline ultra hard material cutting element with a thicker ultra hard layer than cutting elements formed by prior art methods. In an exemplary embodiment, such a method includes pre-sintering the ultra hard material powder to form an ultra hard material layer that is partially or fully densified prior to HPHT sintering, so that the ultra hard layer is pre-shrunk. This pre-sintering in an exemplary embodiment is achieved by means of a spark plasma process, or in another exemplary embodiment by a microwave sintering process.

Diamond Transition Layer Construction With Improved Thickness Ratio

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US Patent:
20110031032, Feb 10, 2011
Filed:
Aug 6, 2010
Appl. No.:
12/851753
Inventors:
Nephi A. Mourik - Provo UT, US
Michael Stewart - Provo UT, US
Peter Cariveau - Draper UT, US
Yi Fang - Provo UT, US
Federico Bellin - The Woodlands TX, US
Assignee:
SMITH INTERNATIONAL, INC. - Houston TX
International Classification:
E21B 10/567
US Classification:
175428
Abstract:
An insert for a drill bit may include a metallic carbide body; an outer layer of polycrystalline diamond material on the outermost end of the insert, the polycrystalline diamond material comprising a plurality of interconnected first diamond grains and a first binder material in interstitial regions between the interconnected first diamond grains; and at least two transition layers between the metallic carbide body and the outer layer, the at least two transition layers comprising: an outermost transition layer comprising a composite of second diamond grains, first metal carbide or carbonitride particles, and a second binder material; and an innermost transition layer comprising a composite of third diamond grains, second metal carbide or carbonitride particles, and a third binder material wherein a thickness of the outer layer is lesser than that of each of the at least two transition layers.

Functionally Graded Polycrystalline Diamond Insert

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US Patent:
20110042147, Feb 24, 2011
Filed:
Aug 6, 2010
Appl. No.:
12/851593
Inventors:
Yi Fang - Provo UT, US
Federico Bellin - The Woodlands TX, US
Michael Stewart - Provo UT, US
Nephi A. Mourik - Provo UT, US
Peter T. Cariveau - Draper UT, US
Assignee:
SMITH INTERNATIONAL, INC. - Houston TX
International Classification:
E21B 10/46
B24D 3/10
B24D 18/00
US Classification:
175426, 51307, 428408
Abstract:
PCD inserts comprise a PCD body having multiple FG-PCD regions with decreasing diamond content moving from a body outer surface to a metallic substrate. The diamond content changes in gradient fashion by changing metal binder content. A region adjacent the outer surface comprises 5 to 20 percent by weight metal binder, and a region remote from the surface comprises 15 to 40 percent by weight metal binder. One or more transition regions are interposed between the PCD body and substrate. The transition region comprises PCD, binder metal, and a carbide, comprises a metal binder content less than that present in the PCD body region positioned next to it.

Downhole Acoustic Emission Formation Sampling

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US Patent:
20110286304, Nov 24, 2011
Filed:
Jul 29, 2011
Appl. No.:
13/194205
Inventors:
Gary M. Thigpen - Houston TX, US
Federico Bellin - The Woodlands TX, US
Alfazazi Dourfaye - Paris, FR
William W. King - Houston TX, US
Assignee:
Varel Europe S.A.S. - PAU Cedex 09
International Classification:
G01V 1/40
E21B 47/14
US Classification:
367 25, 175 40
Abstract:
A method, system and apparatus for testing properties of a rock formation surrounding a wellbore in situ. The apparatus includes a tool body, one or more indenters, and one or more acoustic sensors. The body includes an outer surface that defines one or more cavities therein. Each cavity extends into the body. Each indenter is positioned within a corresponding cavity and is positionable into an operating position and a non-operating position. The acoustic sensor is positioned within the cavity and adjacent to the indenter. The indenter is positioned at least partially beyond the outer surface when in the operating position. The acoustic sensor senses one or more acoustic events occurring when the indenter is in the operating position. The apparatus is inserted into the wellbore. Once inserted, the indenter applies a load onto the rock formation causing cracking and the sensor receives the generated acoustic transmissions. The transmissions are analyzed.
Federico F Bellin from Orem, UT, age ~55 Get Report