Dean Moore - Strongsville OH, US David Flaherty - Cleveland OH, US Melissa Ing - Cuyahoga Falls OH, US
International Classification:
B22D019/04
US Classification:
164/054000, 249/086000
Abstract:
A self-contained crucible assembly for forming a weld between a pair of metal articles, includes a container with side walls and a fusible bottom, a refractory material lining the side walls, an exothermic weld material within the container, an ignitor partially within or close to the weld material and partially external to the container, and a cover sealing the weld material. The ignitor may be stiffened to maintain its shape, and keep it in a desired position relative to the exothermic weld material. The crucible assembly is configured to be placed on mold having a chamber therein. Upon ignition of the weld material via actuation of the ignitor, the weld material reacts exothermically to produce molten weld metal and slag. The fusible bottom of the container is melted by the liquified molten metal, and the weld material flows into a weld chamber of the mold to produce the weld.
Dean Moore - Strongsville OH, US Melissa Ing - Cuyahoga Falls OH, US Viki Miller - Streetsboro OH, US
International Classification:
B32B005/16
US Classification:
428/328000, 428/330000
Abstract:
An ignitable solid material includes molten-metal-producing materials, as well as other materials for retaining its shape when ignited. The molten-metal-producing materials may include a metal-producing reaction mixture, for example including a reaction mixture comprising a reducing agent and a metal compound powder. The other materials may include a binder, and a heat-retaining material, such as sand. The ingredients of the ignitable solid material may be pressed together and dried, to produce a solid, machinable, heat-producing material (a heat block) that may be formed in any of a variety of shapes. An insulating material, such as a ceramic blanket material, may be placed on one or more sides of the ignitable solid material, for example to direct heat produced by the reaction of the solid material in one or more desired directions. The solid material may be used in any of a variety of situations where concentrated heat is desired.
Method And System For Processing Pet Insurance Claims
- Cleveland OH, US Nicolaas Lindsey - Medina OH, US Aaron Puma - Parma OH, US Melissa Ing - Stow OH, US Ambrish Jaiswal - Beachwood OH, US
International Classification:
G06Q 40/08 G16H 10/60 G06N 20/00
Abstract:
A system and method for auto-adjudication of pet insurance claims and precertifications includes receiving user sign on information, sending the user sign on credentials over a communication network to a central cloud server where they are used to retrieve the match hospital's database pool. The hospital database pool is searched for an invoice matching the claim information sent or an estimate matching the precertification information sent with the user credentials and is retrieved and transmitted from the central cloud server to a machine-learning model in a backend system server. The machine-learning model electronically processes the invoice or estimate information by marking each item on the invoice or estimate with a coverage type, wherein the marking is based upon pre-determined input conditions and machine learned data of prior invoices and estimates, the total is calculated in the business rule engine, wherein the total covered amount is the agreed upon amounts for each approved item, the agreed upon amount stored in the backend system server databases. A payment is initiated to the hospital based upon the calculated total covered amount and notice of payment to hospital is sent and displayed on the user interface for claims. A notice of approval is initiated to the hospital based upon the calculated total approved amount and displayed on the user interface for precertifications.
Embrace Pet Insurance
Senior Director of Business Process
Embrace Pet Insurance Aug 2014 - Jun 2018
Director of Technology and Process
Embrace Pet Insurance May 2012 - Aug 2014
Business Process Manager
Erico Jan 2011 - May 2012
Ww Manager, Process Architecture
Erico Sep 1999 - Feb 2011
Team Lead - Business Process
Education:
The University of Akron 1996 - 2001
Bachelors, Bachelor of Science, Chemical Engineering
Skills:
Business Process Improvement Business Process Process Improvement Management Cross Functional Team Leadership Process Engineering Manufacturing Team Leadership Continuous Improvement Leadership Lean Manufacturing Project Management Clutter Control Performance Management Product Development Product Management Six Sigma
Jon Boggs, Lisa Gustafson, Barbara Iverson, Teresa Moore, Kassie Snodgrass, Terrilynne Richmond, Cindy Martin, Samantha Peterson, Dawn Moran, Vaneda Grey, Jolyn Carter