sarahbain, Author at �鶹��ýӳ��

Tariffs Are Changing the Rules

sarahbain — Mon, 02 Jun 2025 14:01:03 +0000

Here’s How to Adapt Your Sourcing Strategy – and How Edgeworks Can Help

Your production manager just called. Again.

A critical part is stuck in customs, and the import duties just doubled. All thanks to an overnight tariff change. You’re not just fighting for delivery. You’re fighting for margin.

And like many operations leaders today, you’re asking: Is there a better way to build and scale my supply chain, without constant surprises?

Tariff Volatility Is the New Normal

The last few months have made one thing clear: global sourcing is no longer predictable.

Tariff schedules are changing rapidly, often with little warning. Compliance is more complicated. And yet, expectations for cost-efficiency and delivery speed are higher than ever.

If your supply chain isn’t flexible, it’s at risk. But flexibility doesn’t mean guesswork. It means strategy. Many OEMs are rethinking how and where they source critical components, and how their partners can help.

Here’s what we’re seeing from the most resilient teams:

They rely on engineering insight to drive sourcing, not just pricing.
They want clear visibility into total landed costs before they commit.
They’re designing supply chains that can pivot quickly in response to policy shifts or regional disruption.
And they’re expecting partners to handle compliance, customs and logistics, so they can stay focused on their products.

“Tariffs are a constraint, not a roadblock,” explains Mike Clark, �鶹��ýӳ��’s Director of Commercial Operations. “With so much uncertainty affecting supply chains today, it’s critical that you partner with a company that not only has a global footprint but also an experienced compliance team. They should be able to design a supply chain solution around your needs. Plus, they should be able to quickly adjust their sourcing strategy as the global tariff environment changes.”

There’s no one-size-fits-all model anymore. But there is a smarter approach—and it starts with clarity, flexibility and engineering alignment.

Tariff Engineering

We help our customers weigh trade-offs in sourcing, materials and assembly that could shift the tariff outcome, without making compromises that could affect part performance or production timelines. This includes understanding the end-use of your parts, so we can make engineering and sourcing decisions based on HTS classifications (used to determine tariff rates).

Small adjustments in how a part is designed, assembled or routed can often lead to significant duty reductions, especially when our compliance and engineering teams work together from the start.

This type of end-use analysis can often uncover big opportunities to save money.

For example, we recently helped one medical equipment manufacturer reduce the duties on one of the components we build for them from 20% to 0% through strategic classification and material choices, all without impacting performance or delivery timelines.

End-to-End Global Logistics

�鶹��ýӳ�� has spent years refining our overseas sourcing programs to be as cost-effective and hassle-free as possible. When �鶹��ýӳ�� serves as your sourcing partner, we take full responsibility for delivering your parts from our overseas partners to your specified location. That includes handling import duties, taxes, and customs clearance, along with all associated risks and paperwork.

This not only reduces your internal overhead but gives you something many suppliers can’t: true landed cost visibility upfront.

“Unlike some of our competitors, we’re able to provide you with a total landed cost for your parts, which enables you to make better-informed sourcing decisions. �鶹��ýӳ��’s network gives our customers the optionality of a global supply chain with the control and clarity of a local partner.” Clark adds.

You’ll also benefit from our economies of scale. Because we ship large volumes for customers across industries, we’re able to negotiate discounted international freight rates and pass those savings directly to you in the form of lower per-part costs.

Prototype-to-Production Continuity

Many contract manufacturers avoid prototyping due to its uncertainty. But it’s often the most important phase, where you can make decisions that affect long-term cost, compliance and tooling flexibility. At �鶹��ýӳ��, U.S.-based engineers collaborate with customers early to optimize parts before tooling is built overseas. Duty-free prototype codes and agile tooling programs allow customers to move fast, without compromising long-term scalability.

U.S. Based Engineering // Our U.S. engineers can help you optimize your parts for manufacturability before tooling is built overseas, helping you avoid costly and time-consuming tool changes.
Overseas Tooling & Part Production // You can have injection mold tools and parts made in small quantities quickly and affordably – ideal for a start-up with a new product or an existing one with a limited budget.

As your production needs grow, we offer hybrid and U.S.-based manufacturing options:

International-Only Manufacturing // Source your injection mold tools and parts from our overseas manufacturing network. This is a popular low-cost manufacturing option.
Hybrid Manufacturing // You can have export tools produced overseas, which can then be shipped to �鶹��ýӳ��’s McHenry, IL location for U.S. production. Save money on tooling costs and have your parts built domestically. This arrangement is perfect for growing companies.
U.S. Tooling & Part Production // All tooling and injection molding is done in the U.S. by Summit by �鶹��ýӳ�� in McHenry, IL. As your needs grow, it’s nice to know you have a stateside manufacturing option!

U.S.-Based Support, Global Execution

Each customer of our international manufacturing network is assigned a dedicated U.S.-based account manager. This experienced professional oversees all project communications, shipping logistics and customs and compliance documentation, from quote to final delivery.

“We manage our customers’ projects across time zones, regulations, languages and compliance requirements so they don’t have to,” Clark concludes.

Our Solution: �鶹��ýӳ�� Edgeworks

To bring all these capabilities together into one flexible approach, we created �鶹��ýӳ�� Edgeworks: a smarter global sourcing solution designed to help manufacturers navigate today’s supply chain volatility with more adaptability, clarity and control.

Edgeworks empowers customers to:

Engineer around tariffs using HTS classification and end-use analysis
Understand total landed costs upfront
Leverage a global supply chain without losing quality or control
React quickly to policy shifts, regional disruption or pricing changes

It’s not just a sourcing program. It’s a resilient, engineering-informed framework built for real-world challenges—like rising tariffs, compliance complexity and international uncertainty.

And it comes with a clear promise: �鶹��ýӳ�� will beat any fully-landed price, from any supplier, in any geography.

By combining global leverage, domestic optionality and tariff-smart strategies, �鶹��ýӳ�� Edgeworks gives you more than a supply chain solution. It delivers a better bottom line.

Learn what �鶹��ýӳ�� Edgeworks can do for you!

The post Tariffs Are Changing the Rules appeared first on �鶹��ýӳ��.

�鶹��ýӳ�� Celebrates National 3D Printing Day

sarahbain — Thu, 02 Dec 2021 19:22:18 +0000

3D Printing // From Curiosity to Industry Transformation

December 3, 2021

The historical timeline for the invention and advancement of additive manufacturing runs at a rapid, permeating pace from the early 1980s to today. 1980 saw the first rapid prototype technique patent application by Dr. Hideo Kodama of Japan, yet, unfortunately, this project that described a layer-by-layer approach to manufacturing was not pursued. Yet, Dr. Kodama’s work opened the flood gates for innovative, cutting-edge technological developments. In the span of one decade, half of the additive manufacturing technologies we use today—Stereolithography (SLA), Selective Laser Sintering (SLS), and Fused Deposition Modeling (FDM)—were invented by true industry pioneers who recognized and pursued a better path forward for the future of manufacturing.

“Just like the advent and rapid innovation of technologies like the internet, artificial intelligence, and the Internet of Things (IoT), 3D Printing & Additive Manufacturing is at an inflection point of immense transformational developments. It’s humbling to have been part of setting a great foundation formed by revolutionary thinking by several forward thinkers dating back three decades. I am extremely excited about the future of the AM industry.” / / Scott Crump – Inventor of FDM & Co-Founder of Stratasys

For the past 40 years, industry innovators and leading-edge technology has proactively pushed the boundaries of innovative manufacturing solutions. The evolution of additive technology for rapid prototyping purposes has progressed into more downstream manufacturing applications. Additive manufacturing has turned countless concepts into impactful, industry-altering realities driven by speed, complexity and agility.

“In 2020, 3D printing will confirm its role as one of the most transformational and consequential technologies in the fourth industrial revolution.” / / Marco Annunziata –

Key Moments

1980: First rapid prototyping patent application attempt / / Dr. Hideo Kodama
1986: Stereolithography / / Charles Hull
1988: Selective Laser Sintering / / Carl Deckard
1989: Fused Deposition Modeling / / Scott Crump
1995: Direct Metal Laser Sintering / / EOS
1999: First 3D printed human organ
2000: Objet / / PolyJet
2016: HP / / Multi Jet Fusion

We are proud and honored to be a part of one of the most innovative industries. �鶹��ýӳ�� salutes the accomplishments of the 3D printing pioneers. With an expectation for the future—from today to beyond—we’ve assembled six technology highlights to celebrate 3DP Day, and bring more awareness to the history of our industry.

Stereolithography (SLA)

Stereolithography (SLA) is a 3D printing method that uses a UV laser and a resin to create parts. A single laser is directed to specific areas to cure the resin and create a solid pattern. SLA is popular because it can print parts with excellent precision.

SLA Parts��In��As��Soon��As��Next-Day /��/��Get A Quote��

Selective Laser Sintering (SLS)

Selective Laser Sintering (SLS) is a powder-based additive technology used to create models, prototypes and end-use parts in durable, engineering-grade thermoplastics. SLS is also capable of producing parts with finer details than most processes that use high-strength plastics.

SLS Parts��In��As��Soon��As��Two-Days / /��Get A Quote��

Fused Deposition Modeling (FDM)

Fused Deposition Modeling (FDM) is a filament-based additive technology distributed by a moving print head that extrudes a heated thermoplastic material layer by layer onto a build platform. FDM is ideal for building concept models, functional prototypes and end-use parts.

FDM Parts��In��As��Soon��As��Next-Day��/ /��Get A Quote��

Direct Metal Laser Sintering (DMLS)

Direct Metal Laser Sintering (DMLS) or metal 3d printing is an additive layer technology that utilizes a laser beam to melt layers of metal powder on top of each other. DMLS prints parts with high accuracy with excellent surface quality and mechanical properties.

DMLS��Parts��In��As��Soon��As Three-Days��/ /��Get A Quote

PolyJet (PJ)

PolyJet (PJ) is photopolymer-based jetting process that distributes material droplets layer by layer and then immediately cures the materials with a UV light. PJ is capable of creating smooth surfaces, thin walls, and complex geometries using a wide selection of materials.

PJ��Parts��In��As��Soon��As��Same-Day / /��Get A Quote��

Multi Jet Fusion (MJF)

Multi Jet Fusion (MJF) builds parts by repeatedly printing a thin layer of powder on a print bed. The inkjet array in the print carriage sweeps over the print bed, jetting two agents downward—a fusing agent and a detailing agent—ideal for printing complex, functional assemblies.

MJF��Parts��In��As��Soon��As��Two��Days��/ /��Get A Quote��

The post �鶹��ýӳ�� Celebrates National 3D Printing Day appeared first on �鶹��ýӳ��.

�鶹��ýӳ�� 4.0: Transforming the Future of Manufacturing

sarahbain — Tue, 10 Nov 2020 15:10:08 +0000

Hartland, Wis., November 10, 2020

In 2020, four legacy companies – FATHOM, Midwest Composite Technologies, ICOMold and GPI Prototype – combined to form �鶹��ýӳ��, the largest privately held digital manufacturing company in North America. As each held important industry positions individually, together they are uniquely poised to lead the digital manufacturing revolution. Moving forward, the companies will operate under the brand, �鶹��ýӳ��.

To fully understand and best serve our consolidated customer base, �鶹��ýӳ�� underwent an independent consumer research study which unanimously recognized �鶹��ýӳ�� for its responsive communication, speed, agility, and expertise. “This is a pivotal moment in our industry to drive innovation and change, the new �鶹��ýӳ�� has been formed to drive a differentiated and impactful customer experience,” stated Rich Stump, Co-Founder and Chief Commercial Officer (CCO), �鶹��ýӳ��. To simply be recognized is not enough – �鶹��ýӳ�� strives to be the absolute BEST at these important attributes which are critical to the success of its current and future customers.

Who is �鶹��ýӳ��?

The future of manufacturing is changing and �鶹��ýӳ�� is leading that change by leveraging our proven differentiators to reimagine the customer experience. Built on Industry 4.0, �鶹��ýӳ�� is the development of enhanced solutions backed by 35 years of industry expertise. This enables �鶹��ýӳ�� to reimagine digital manufacturing by joining proven methodologies with new processes and technologies.

�鶹��ýӳ�� combines a broad array of advanced manufacturing technologies to provide a unique and impactful development process. We proactively push the boundaries of innovative solutions to turn concepts into reality. With clients ranging from industries within the Aerospace, Defense, Automotive, Technology, Medical & IOT sectors, �鶹��ýӳ��’s digital manufacturing capabilities are now integral to their product development process.

“We are very excited to announce and begin executing our �鶹��ýӳ�� 4.0 strategy. This differentiated strategy focuses on speed, problem-solving, adaptive customer technical responsiveness and manufacturing to customers’ specifications (project complexity). All of this is backed by the industry’s most talented team and extensive capabilities. We believe this strategy will position �鶹��ýӳ�� as the most unique and differentiated digital manufacturer in North America.” -Ryan Martin, CEO, �鶹��ýӳ��

As experts in additive and traditional manufacturing, our in-depth expertise begins with a technology agnostic approach. This inventive approach is backed by over 200,000 square feet of manufacturing space where we utilize:

14 manufacturing production methods
6 additive manufacturing technologies
Over 90 industrial grade / large format additive systems
A combination of over 125 mills, lathes, presses & 3D printers
Domestic CNC
Urethane casting
Domestic and International Injection Molding
Enhanced model finishing and assembly

Working with �鶹��ýӳ�� provides immediate and comprehensive access to the most relevant equipment and experience in advanced manufacturing, engineering, and prototyping. We simply bring it all together, we boldly make the investments in our business and leverage our expertise to problem solve and deliver high-efficiency outcomes every time for our customers. See the new �鶹��ýӳ�� at �鶹��ýӳ��Mfg.com.

The post �鶹��ýӳ�� 4.0: Transforming the Future of Manufacturing appeared first on �鶹��ýӳ��.