Custom Injection Mold Maker

History of HYX MOLD Company
Founded in 1999, HYX MOLD Plastics, Inc. is a custom injection mold maker that produces quality plastics products for home and industry. Our Mission is to offer the highest level quality and service in our market. We accomplish this through sound strategic planning, competitive pricing, effective communication with suppliers, employees, and customers, and a total commitment to the shipment of first quality goods, on time.

Facility

67,000-square feet, brick building, 18′ ceilings, located on a 7 acre industrial site
Five raised docks, two ground level docks
Two miles west of Interstate 40 on a major thoroughfare
Easily accessible and centrally located in the Piedmont Triad area of NorthCarolina. Fifteen minutes from Piedmont Triad International Airport (PTI.)

In 2008, HYX MOLD acquired the assets of ST Mold and Design which had been building tools for Fortune 500 companies for more than 20 years.  Fred Davis, the former owner, joined HYX MOLD at that time to bring expertise in mold design and maintenance for customers of HYX MOLD Plastics.

Custom Injection Mold Maker
Custom Injection Mold Maker

Currently, HYX MOLD repairs and maintains 400+ tools for more than 50 customers.  Our equipment includes:

(1) 6 x 18 SUPER PRECISION surface grinder

(1) 6 x 12 surface grinder

(1) CNC  vertical milling machine

(1) Bridgeport milling machine with Rotary-head attachment

(2) EDM machines with DRO and program-able depth control

(1) Hardinge  precision tool-room lathe

(1) Miller micro-welder

(1) horizontal saw

(1) Rockwell tester

Gages and support equipment.

Quality Assurance
HYX MOLD’s Quality Assurance Department and Lab is dedicated to the manufacture and shipment of first quality goods only. This is accomplished through the application of policies and procedures as outlined in our comprehensive Quality Manual.

Founder & CEO

Steve has served the plastics industry for over 35 years. Prior to starting HYX MOLD Plastics, he worked at Rubbermaid for 12 years where he directed Engineering, Computer Systems Development, and Purchasing.  He left Rubbermaid in 1987 to start HYX MOLD Plastics.  Steve has a BS in Industrial Engineering and an MBA in Finance, both from Virginia Tech.

Out international team

Kirk Sparks

President

Kirk joined HYX MOLD Plastics in 2001 and became a full partner in 2002. Kirk has over 30 years experience in marketing products for the industrial marketplace. He spent nine years in management with General Electric working in several U.S. locations, as well as countries in Europe, the Far East and the Middle East. Kirk has helped manage three businesses through turnaround situations. He is a graduate of N.C. State with degrees in Business and Economics.

Todd Poteat

VP Manufacturing

Todd Poteat joined HYX MOLD Plastics in February 2012.  Todd has been involved in the plastics industry for 24 plus years.  Prior to joining HYX MOLD Plastics, he was Site Leader of an injection molding facility for a large consumer product manufacturer. Todd has proven management and technical expertise focused on continuous improvement and problem solving.  He has a BS in Mechanical Engineering from NC State and an MBA from Western Carolina University.

Joe Vest

VP of Engineering and Logistics

Joe has been at HYX MOLD since 1998. He came to us from TYCO where he was Plant Manager for their A&E Products operation in Forest City, NC. Joe has excellent leadership and management skills, having served in the Army as an artillery officer. A graduate of West Point in Mechanical and Aerospace Engineering, Joe’s leadership, innovation and technical skills are valuable assets at HYX MOLD Plastics.

Kate Bryant

Manager of Quality and Training

Kate joined HYX MOLD in June 2012, with over 34 years of plastic molding manufacturing experience. For the last seven years, she was the VP of Quality for Avgol Nonwovens.  Trained as a Master Auditor by Procter and Gamble, Kate has excellent auditing, and quality management skills. Previously, Kate worked at Microfibres as a Product Development manager focused on innovative ideas for fabric applications in furniture.  In 25 years at Burlington Industries, Kate served in a variety of roles including Senior Technical Manager, Asset manager, and Manager for all laboratories in the Klopman Division.  At HYX MOLD, Kate’s focus is on leadership, quality, auditing, continuous improvement and problem-solving.  Kate is a graduate of James Madison University with a dual major in Chemistry and Physics, and a minor in mathematics.

Jeff Larrimore

Controller

Jeff Larrimore joined the team at HYX MOLD Plastics in July 2014. Jeff has 36 years of manufacturing accounting experience working for both private and public companies. He has assisted family owned companies that have doubled and tripled in size during his tenure. His expertise includes setting up benefit and 401K plans as well as upgrading ERP systems to ensure efficient and profitable processes. He holds a BS in Accounting from the Kenan Flagler School of Business at UNC Chapel Hill.

Go to out plastic mold & molding shop by https://www.hao-mold.com/

CAD-CAM Progrom

Tutorial CD-ROM Introduces Merits of CAD/CAM Program

SINCERE TECH plastic mold Company. is offering a free tutorial CD-ROM for its ST CAD/CAM software. The CD, first in a new “Getting Started” video series, is designed to take a user step by step through the construction of a single product. This first CD covers fundamentals such as program navigation, initial hybrid 3D models, automated drawing, layout, and dimensioning as well as “power user” hints.


SINCERE TECH MOLD Corp. is making its CAD/CAM software easier to learn through a series of “Quick Start” tutorials available on-line and on CD-ROM. The tutorials feature a presentation by a ST expert who guides the new user through the design of a single product. Each video segment includes a step-by-step “live action” sequence of menu picks and on-screen results, followed by a single-screen summary of the steps, as shown here.

long the way, users learn about the time-saving benefits of seamless hybrid mixing of solids and surfaces to build components quickly. A variety of surfacing operations create an ergonomic, aesthetically pleasing TV remote control complete with Class A surfaces. Other video segments guide a user through shelling and mold tools, including the automatic calculation of parting lines and separation into plastic mold cavities, as well as easy updating of components through the ST history and rules manager.

Mecof Well Situated to Serve International Markets

cnm tech. is a long-established company that started as a manufacturer of radial drilling machines in 1947. In the succeeding decades, the company developed a leading role in the manufacture of high-speed and high-accuracy milling and boring machines. this service is normally for plastic mold company

Now, the Mecof Group has a personnel roster of approximately 500 spread throughout Europe and the United States. Sales and services offices are located in Germany, France, Russia, and the United States. The headquarters operation, CNM is responsible for the design, manufacture, assembly, sales and service. Salvadeo Srl handles the assembly of the Unica line and retrofitting activity while Spaziosystem Srl is the software house. There are as well two general engineering workshop organizations, Meccanica UNO Srl and Mecof Hungary Kft.

A newly developed production range draws on the power of HSC. The high accuracy of the Mecof machines offer a decrease in machining time from 40% to 70% for plastic molds and dies, and reduced time for finishing.

Solution for Plastic Mold heat treatment Issue

Solution for Plastic Mold heat treatment Issue

Plastic mold making failure mostly factors of heat treatment of this important aspect of. Because of the above heat treatment of general failure caused by improper accounting for about 50% of total failure mould. In order to give full play to the potential properties of mould steel, mould machining should be conducted after the quenching, tempering heat treatment in heat treatment, heating temperature, holding time, the length of the cooling speed of process parameter selection is not appropriate will be die failure factors. A machined good plastic mould,if lost due to improper heat treatment and its use value, is in the economy and the loss of time is very big, must adopt various measures to prevent mouth

Carbon and alloy elements with more influence of die steel of heating rate, poor thermal conductivity. So in the heat treatment (especially the quenching) heating speed not too fast, should be more slowly, to prevent mold deformation and cracking. Heating in air furnace quenching, in order to prevent oxidation and decarburization, using packing to protect heating, this heating speed is not fast, but the diathermy also slower, so won’t produce big thermal stress, relatively safe. In the use of salt bath furnace processing, mold heating speed fast, diathermy is also very fast, die inside and outside by thermal stress, if not properly controlled, it is easy to cause deformation or crack, resulting in failure of die, must be used to prevent or slow heating preheating acceleration

Plastic mold making will normally need heat treatment if you want the mold running over 1 million of life time shots

Die quenching effect of oxidation and decarburization is at very high temperatures, if not strictly controlled atmosphere, it is prone to oxidation and decarburization on the surface. But most die quenching, tempering after removal in local work surface grinding, the rest nearly no processing, therefore, oxidation and decarburization in heat treatment will also make the mold cause early failure. When the oxidation, mold surface easy to scratch, size, easy to produce fatigue crack in early use, when caused by decarburization, surface hardness significantly reduced resulting in early wear. plastic mold

In addition, decarburization mould surface after due to differences in inner and outer layer of tissue, cooling appear larger tissue stress often leads to quenching crack. In order to prevent oxidation and decarburization of mold can be used to protect the processing, packing box, filling materials filling anti oxidation and decarburization, sealed after heating. In addition, also can use salt bath furnace, controlled atmosphere furnace, vacuum furnace. Adopting the controlled atmosphere furnace must be strict control of carbon potential level of carbon potential is too low, will cause the same plastic mold surface decarburization, but carbon potential also cannot be too high, otherwise, although not happen decarburization, but often lead to make the surface of steel carburization embrittlement, which significantly reduce the fatigue strength of steel

Die casting manufacturer has the same issue during die casting mold making/

The quenching temperature effect of quenching temperature significantly influence the performance of various mold. The quenching temperature is too high, easy to grow up, and make a lot of carbide dissolution of the matrix, the formation of coarse needle martensite, make steel brittle, so die in use often cracking, chipping, breaking accident; on the contrary the quenching temperature is too low, the dissolution of carbide in the matrix is not full, the hardenability of steel worse, the quenching hardness is low, the use of no wear resistance, low life, at the same time, the compressive strength of steel is also low, prone to upsetting punch or drum and failure

Effect of the cooling conditions of quenching cooling condition. It is also very important. For different mould materials, should be organized according to state requirements, selection of different cooling rate. For high alloy steel, the alloy elements contain more, high hardenability, can the oil cooling, air cooling, even austempering and martempering processes such as, if adopts water cooling quenching is prone to rapid cooling quenching crack; for low alloy die steel, because of its lower hardenability, needs to use the water quenching cold can enhance the cooling speed, the general use of cooling water, if Liu Qi the oil cooling or air cooling, due to the low hardness after quenching, die do not wear, in service life shortened, also can cause early failure.

Plastic mold steel heat treatment have issue will effect Injection molding cost. Because the poor quality mold will effect the mold life and injection molding parts cost

Mould for manufacturing T10 carbon tool steel for cold impact annealing time, in actual use in the mold face many cracks and scrap. The observations show that the microstructure, two carbide in ferrite matrix on the distribution uneven, and there is a lot of graphite precipitated at the grain boundary. The analysis thinks, this kind of graphite by annealing thes teel in the temperature range of 780-800 DEG C when the insulation, long time caused by the.