Qi I Zeng from Pawling, NY, age 56

License Records

Qi Zeng

License #:

07618 - Active

Category:

Accountants

Issued Date:

Aug 8, 2014

Expiration Date:

Jun 30, 2019

Type:

Certified Public Accountant

Us Patents

Iron/Iron Oxide Nanoparticle And Use Thereof
view source
US Patent:

20100047180, Feb 25, 2010
Filed:

Jan 9, 2008
Appl. No.:

12/522938
Inventors:

Qi Zeng - Belvidere IL, US
Ian Baker - Etna NH, US
International Classification:

A61K 49/06
A61K 9/14
US Classification:

424 932, 424490
Abstract:

The present invention is a nanoparticle composition composed of an iron core with an iron oxide shell which is optionally coated with a micro-emulsion. The disclosed nanoparticle compositions are disclosed for use in hyperthermia treatment and imaging of cancer.

Nanostructured Mn-Al Permanent Magnets And Methods Of Producing Same
view source
US Patent:

20100218858, Sep 2, 2010
Filed:

Oct 27, 2006
Appl. No.:

12/089876
Inventors:

Ian Baker - Etna NH, US
Qi Zeng - Belvidere IL, US
International Classification:

C22F 1/18
H01F 1/047
C22C 22/00
US Classification:

148559, 148314
Abstract:

Nanostructured Mn—Al and Mn—Al—C permanent magnets are disclosed. The magnets have high coercivities (4.8 kOe and 5.2 kOe, respectively) and high saturation magnetization values. The magnets are prepared from cost effective and readily available elements using a novel mechanical milling and annealing method.

Nanostructured Mn-Al Permanent Magnets And Methods Of Producing Same
view source
US Patent:

20120003114, Jan 5, 2012
Filed:

Jun 20, 2011
Appl. No.:

13/164495
Inventors:

Ian Baker - Etna NH, US
Qi Zeng - Sinking Spring PA, US
International Classification:

B22F 1/00
B22F 9/04
B22F 3/02
US Classification:

419 62, 75245
Abstract:

A bulky consolidated nanostructured manganese aluminum alloy includes at least about 80% of a magnetic τ phase and having a macroscopic composition of MnXAlYDoZ, where Do is a dopant, X ranges from 52-58 atomic %, Y ranges from 42-48 atomic %, and Z ranges from 0 to 3 atomic %. A method for producing a bulky nanocrystalline solid is provided. The method includes melting a mixture of metals to form a substantially homogenous solution. The method also includes casting the solution to form ingots, measuring compositions of the ingots; crushing the ingots to form crushed powders, and milling the crushed powders to form nanocrystalline powders. The method further includes verifying the presence of τ phase and determining the amount of the τ phase, and simultaneously consolidating the nanocrystalline powders into a bulky nanocrystalline solid and undergoing phase transformation from ε phase to at least 80% τ phase, β and γ2 phases.

Resumes

Principal Product Metallurgist

view source

Location:

Reading, PA

Industry:

Mining & Metals

Work:

Carpenter Technology
Principal Product Metallurgist
Manufacturing Technology, Inc. (Mti) 2009 - 2010
Metallurgist_Welding
Arnold Magnetic Technologies Feb 2007 - Apr 2009
Senior Magnetic Engineer

Education:

Dartmouth College
University of Delaware
University of Science and Technology Beijing
Lehigh University
Master of Business Administration, Masters

Skills:

Materials Science
Metallurgy
Materials
Finite Element Analysis
Alloys
Manufacturing
Metallography
Failure Analysis
Magnetics
Steel
Heat Treatment
Welding
Metal Fabrication
Powder X Ray Diffraction
Lean Manufacturing
Mechanical Testing
Metals
Scanning Electron Microscopy
Characterization
Corrosion
Design of Experiments
Nanotechnology
5S
Stainless Steel
Optical Microscopy
Coatings
Thin Films
Material Selection
Electron Microscopy
Nanomaterials

Interests:

Magnets and Their Applications
Friction Welding