Welding Company Techniques for Distortion Control

09 February 2026

Distortion sneaks up on even the best welders. You tack a frame that measures square, run a clean bead, and by the time the part cools, a flange pulls a few millimeters or a long panel turns into a potato chip. If you work in a metal fabrication shop that serves build to print customers, those millimeters can wreck schedule and margin. In industrial machinery manufacturing or custom steel fabrication, where assemblies stretch several meters and mix thick to thin sections, distortion control is not a nice-to-have. It is a discipline, as central as joint design or filler selection.

What follows comes from years on busy floors, from a cnc machine shop that could bail us out with a skim pass, to a welding bay that had to get it right the first time. A Canadian manufacturer building underground mining equipment faces very different realities than food processing equipment manufacturers polishing sanitary welds, but the physics are the same. Heat expands metal, cooling contracts it, and restraint always extracts a price. The art is deciding where to spend that price so the finished part meets spec without burning hours on rework.
Why distortion happens, and why it hides
Every weld puts a small furnace into a joint. The arc pumps in energy, the molten pool grows, and the heat-affected zone softens. Expansion tries to stretch the material, but the solid surroundings resist. The metal yields a bit, plastic strain locks in, and as the joint cools, the contracted weld pulls the plates with it. Short, intermittent welds create a string of localized pulls. Long continuous beads act like a zipper that tightens the assembly as it cools. The effect compounds across seams, especially when the joint runs along a free edge or into a corner.

Distortion hides in three forms. Longitudinal shrinkage shortens the weld line. Transverse shrinkage narrows across the joint. Angular distortion tips parts around the weld because the top and bottom cool differently. In thin gauges, you see oil canning and panel warping. In thicker sections used by mining equipment manufacturers or logging equipment fabricators, you notice subtle bow or twist that takes a press to fix. On precision frames destined for cnc precision machining, a millimeter of bow becomes a three-hour chase on the machining center.

The lesson is simple. If the welding company controls when and where the heat goes, it controls distortion. That means planning, joint design, fixturing, welding parameters, and cooling strategy all matter. Skipping any one of those shows up in the inspection report.
Start on paper: joint design and process choices
Distortion prevention begins long before someone pulls a hood down. Most build to print packages allow latitude in joint prep, bead placement, and weld sequence. A good machine shop partner or Industrial design company helps push those choices toward stability.

For fillet welds, consider double-sided joints where access allows. Two smaller welds on opposite sides counter each other better than a single large leg on one side. On butt joints, keep root openings minimal but practical. A 1.5 to 2 mm gap in thin material can be enough for penetration without making a space heater out of the joint. In thicker steel fabrication, pre-machining a J or U-groove reduces filler metal, which cuts heat input and shrinkage.

Flanged or stiffened panels need continuous design thought. If the part will see post-weld cnc metal cutting or precision cnc machining, align stiffeners so the weld pulls into the expected machining stock rather than away from it. On large sheet modules, break long seams into shorter sections with stitch welds or intermittent runs where codes permit. In food-grade custom fabrication where continuous beads are required, design the sequence and part supports to let the panel breathe, then return it to flatness.

Process matters. Gas metal arc welding (GMAW) with short-circuit or pulsed spray pulses less heat into thin material than traditional spray. Gas tungsten arc welding (GTAW) gives tight control on thin stainless, but unless pulsed and fast, it can soak a lot of heat. Flux-cored arc welding runs hotter and faster, good for thick sections, but again, watch cumulative heat. For cnc metal fabrication shops focused on repeatability, a pulsed GMAW program tuned for each thickness can save a remarkable amount of rework. When you scale to long production in a manufacturing shop, even a five percent drop in heat input shows up in straighter parts and fewer shims on fixtures.
Think like a press brake: use geometry to your advantage
If you must weld a long stiffener to a plate, expect transverse shrinkage. One trick we use on custom machines is to pre-camber the plate slightly opposite the expected pull. In practice, add 1 to 3 mm of arc across a meter, depending on thickness and bead size. A quick proof in the shop: make a 300 mm trial panel, run the exact weld, measure the pull, and scale it.

On box sections or rectangular frames, chain the joints in a way that balances pulls. Opposing sides first, corners last, cap passes symmetrical. If a corner must be heavy, put a smaller balancing weld on the other side or design a small relief groove that closes as the heavy weld contracts. For large frames used by industrial machinery manufacturing, splitting a single deep weld into multiple passes with peening between passes can flatten the final angle.

For circular parts, like flanges on pipe spools or rings on biomass gasification vessels, stagger tack welds clocked around the circumference and alternate short weld segments like the pattern on wheel lugs. Finish with opposing segments moving steadily around the part. This reduces banana bends that happen when one quadrant gets hot while the far side remains cool.
Fixturing: clamp where it helps, float where it hurts
Clamping solves movement but not shrinkage. It only decides where the shrink shows up. Overconstrained parts will spring open when you release them. Underconstrained parts will wander while you weld. A good fixture supports the work near, not right under, the weld. It lets the joint contract without buckling panels or twisting long members, and it references from datums that matter to the machinists.

In a cnc machining shop environment, we often cut fixture bases with cnc metal cutting so shims can tune heights by half a millimeter. On a 3 m frame, a 0.5 mm tilt at one end becomes 2 mm of twist by the end of welding if you lock it down wrong. Use robust stops for length and squareness, and heavy clamps just far enough from the weld to leave the heat zone free to move slightly. If tolerances are tight and volume justifies it, water-cooled copper backup bars under butt joints are worth the plumbing. They soak heat, stabilize the root, and halve the chance of drop-through on thinner stock.

In production runs at metal fabrication shops, modular fixturing with repeatable locators pays back fast. A Canadian manufacturer that builds hundreds of identical brackets can best steel fabricator practices https://waylonzggw289.lowescouponn.com/industrial-design-company-tactics-for-manufacturable-aesthetics spend a day making a plate with hardened buttons, then gain weeks of consistent, low-distortion parts with less touch-up. If you only build a custom metal fabrication shop one-off, simple strongbacks and tack-in braces do the job, but make them easy to remove without grinding half the part away.
Preheat, interpass, and cooling control
Heat management is not just about a single pass. The whole sequence matters. On thick steel or on high-strength alloys, preheat reduces thermal gradients and slows cooling. That stabilizes the microstructure and reduces the steep contraction that drives angular distortion. Target preheat bands based on procedure qualification records, not guesswork. Many mining equipment manufacturers publish internal tables tying thickness and grade to preheat ranges, typically 50 to 150 C for common carbon steels, climbing higher for alloys.

Interpass temperature control stops the part from turning into a heat sink that keeps building residual stress. If the spec says keep interpass below 200 C, measure it. An infrared thermometer gets you close, a contact thermocouple is more accurate on dull finishes. Let large parts cool to a banded range between passes. Slow air cooling in still air usually beats a fan, which will turn a panel into a propeller if you hit it at the wrong time. Forced cooling and quenching are shortcuts that work right up to the day they ruin a week of work.

For thin stainless used by food processing equipment manufacturers, backup gas and chill bars are your best friends. Argon purge on the back side reduces oxidation and spatter, which means less cleanup that would heat the panel again. An aluminum or copper chill bar under a seam carries heat out of the joint fast, letting you run a hot, quick pass that solidifies before the plate walks.
Bead size, sequencing, and skip patterns
More weld metal means more heat and more shrink. Oversized fillets, the trap of every well-meaning welder, are distortion amplifiers. If the leg size calls for 6 mm, aim for 6 mm, not 8. On long seams, stagger the start and stop locations between passes so shrinkage is not concentrated at the ends. Start slightly off the corner and backstep into it, then carry forward. Backstepping as a technique, where you weld a short section in the opposite direction of overall progress, cuts cumulative pull without slowing production as much as people fear. On critical assemblies, the minutes you add at the torch save hours under a press.

Balance welds. On a ladder frame, if you place a 500 mm weld on the left rail, follow up with one in the mirror location on the right rail. On box tubes, alternate sides and roll the part to access the underside rather than stacking all welds on the top surfaces. If you can, break a marathon seam into 100 to 150 mm runs, spaced along the part, then return to fill the skips. The parent material has time to recover between segments.
The tack weld as a planning tool
Good tack welds do more than hold parts. Size them so they resist the initial pulls but are small enough to remelt cleanly into the final bead. On a 6 mm fillet, a 10 to 12 mm long tack, about half the final fillet throat in height, stands up to motion. On big frames, use a sequence of tacks that pretension the part opposite the expected distortion: light hammer taps on cooled tacks can set a slight bias. When you stitch the final welds, the pulls neutralize to flat. Mark tack sequence on the part if multiple people will touch it. Verbal plans disappear at shift change, paint dots do not.
Measuring progress while the metal is still hot
You cannot quality-control your way out of distortion, but you can catch it upstream. On work for cnc machining services, we stop between passes to lay a straightedge and record bow on a traveler sheet. If a flange drifts 0.5 mm by mid-sequence on a target of 1 mm total, the welder knows to adjust. On large ground-engaging parts for Underground mining equipment suppliers, we pin gauging bars to critical hole patterns before welding the surrounding plates. If bolt centers move, we see it in minutes, not days later on a drill press that cannot hit location.

Dial indicators on fixtures cost less than your time. Set one to watch for panel lift near a seam. If it climbs past your setpoint, pause, change sides, or let the part cool. It is easier to stay flat than to come back from a 3 mm bulge on a 2 m panel.
When to let the machine shop help
Great welders hate handing a less-than-perfect piece to a cnc machining shop, but smart shops plan minor machining into the build. Datum faces and bearing bores deserve machining after welding. Flip that mindset to your advantage. If a plate must be flat within 0.25 mm, leave 1 mm machining allowance, weld knowing you will skim, and spend your control budget on the critical pieces that cannot be machined later.

Coordinate with your Machining manufacturer partner on fixture points. If they can clamp on a robust boss instead of a delicate skin, you can route welds to pull into that boss. When both sides accept that minute of extra talk during quoting, distorted headaches disappear later. In a combined welding and cnc machining shop, a shared distortion log that ties weld sequence to required machining stock carries gold. You discover that changing one leg size cuts stock removal in half and frees an hour on a busy mill.
Material choices and their temperament
A36 behaves differently than 6061 aluminum, and stainless has its own moods. Mild steels forgive, especially in thicker sections. High-strength low-alloy steels need preheat care to avoid cracking and can shrug at minor sequencing changes. Austenitic stainless moves more under heat and work-hardens if you overwork alignment clamps. Duplex stainless demands strict heat control and a tight interpass range. Aluminum sheds heat fast but loses strength in the heat-affected zone, so big heats and leisurely travel burn holes in schedules as well as panels.

For parts that will see cnc precision machining later, pick a grade that responds predictably to heat. If you can swap a temper or alloy for one with a narrower distortion signature and the procurement team can live with it, do it. The savings in rework at a metal fabrication canada facility often offset a modest material premium.
Case notes from the floor
We built a custom machine frame, 2.4 m long, 1.2 m wide, from 10 mm plate and 100 x 100 x 6 box tube. The original print called for single-sided fillets on all internal crossmembers. The first unit bowed 3 mm across the diagonal after final weld. We adjusted to double-sided 5 mm fillets on opposing faces, reduced the total deposited metal by about 12 percent, and sequenced welds in a skip pattern with 150 mm segments. Bow dropped to under 0.8 mm, well within the 1 mm machining stock we held on top faces. Total welding time fell by 20 minutes because we spent less time straightening.

On a stainless chute for a food client, 2 mm 304 sheet with full-penetration corner welds, we tried to clamp the panels dead flat on a steel plate. Oil canning ruined the second unit. The change was simple. We introduced a wavy aluminum chill bar under the seam, lifted the panel off the bench on soft pads to let it float, and switched to pulsed GTAW with 0.9 mm filler, moving faster. Distortion went from visible waves to a subtle 0.5 mm ripple that disappeared after a light planish and Scotch-Brite pass.

In an underground mining component, a massive lug plate was welded to a 50 mm base using flux-cored wire. The lug drifted out of perpendicular by 0.6 degrees after cool-down. We added a 1 degree negative bias using a wedge under the lug during tacking and preheated both parts to 120 C to equalize. The final result sat within 0.1 degree, repeatable over a dozen builds. Time lost on the first piece recovered over the run.
When straightening belongs in the plan
Even perfect sequences leave residual stresses. For heavy weldments in industrial machinery manufacturing, mechanical straightening is part of the costed process. Presses, heat lines, or controlled peening nudge parts back into spec. Heat straightening, used with care, draws specific areas to shrink using a torch applied in triangles or beads. Keep temperatures measured and below phase transformation ranges unless procedures specify otherwise. If a steel fabricator treats heat straightening as a secret art practiced after hours, scrap piles grow. Treat it as a formal sub-process with documented temperatures and measured moves, and you reclaim control.

Plan for access. If you know a long flange tends to arc up by 2 mm, leave clearance for a jack and pad, do not weld stiffeners that block the only flat spot a press shoe can reach. If the cnc machining services team must skim a surface that will get pressed, schedule the pressing first to avoid moving datums after machining.
Training welders to think ahead
Distortion control is not a manager’s PowerPoint, it is a welder’s reflex. Training matters. When a new team member joins, we run small mockups with deliberate pitfalls: a long single-sided seam on a thin plate, a corner joint on a frame with clamps placed wrong, a plug weld near an unsupported edge. We let them weld as they normally would, then measure. After that, we teach backstepping, tack biasing, and fixture shimming. Watching their second attempt flatten out changes how they plan every future job.

Weld procedure specifications should name not just voltage and wire feed, but also bead sequences and intended clamping points for recurring builds. On a custom fabrication schedule, capture what worked into photo notes. A two-minute read before a complex job saves a day on the press.
Continuous improvement in a busy shop
Metal fabrication shops that serve varied clients, from Machine shop customers to biomass gasification startups, live in the gray space between one-off creativity and production discipline. Keep a simple distortion log. Record part number, joint type, weld sequence, clamping strategy, measured distortion at key points, and corrective actions. Review the log monthly with welding leads, quality, and the cnc machining shop foreman. Share wins and traps. When the same strategy cures several families of parts, roll it into standard work.

Incorporate metrology early. A laser tracker is nice, but a set of long straightedges, feeler gauges, and a granite table corner do wonders. On long runs, run capability checks after ten and fifty parts. If your standard deviation on flatness starts to widen, something changed in material, filler lot, or welder rotation. Catch the drift before customers call.
Balancing cost, speed, and tolerance
No two jobs carry the same priorities. A low-volume bracket for a logging equipment outfit can live with minor cosmetic waves. A machined bed for a packaging line cannot. A welder can hit a tolerance either by spending more time at the bench with shorter beads and careful cooling, or by moving faster and letting a mill skim the finish. The better path depends on fixture availability, machine time cost, and schedule pressure.

In a manufacturing shop where cnc metal fabrication and welding share space, the math often favors modest extra welding control paired with predictable machining stock. If machine time is backed up for weeks, put more effort into weld sequences and fixturing. If welding bays are the bottleneck, spend a bit of stock and let the cnc precision machining team take the last half millimeter quickly.
A brief, practical checklist for the floor Confirm joint design and fit-up match the plan, with gaps controlled to spec. Set fixtures to restrain datums, not the weld seam, and verify with indicators. Choose process and parameters for minimal heat input that still achieve fusion. Sequence welds to balance opposing pulls, and keep fillets to specified size. Monitor interpass temperatures and measure distortion mid-process, not just at the end. Industry-specific wrinkles worth noting
Underground mining equipment suppliers often weld thick sections with high deposition processes. Their distortion issues hide in accumulated angular changes over long welds. Consider staged preheat, interpass holds, and robust strongbacks you remove progressively. The weight helps and hurts, so plan crane access for rolling parts between sequences.

Food processing equipment manufacturers fight thin stainless that demands clean, continuous beads. Back purging and chill bars matter more than brute restraint. Any grind rework must be light and cool. If a panel waves, a planishing hammer with a polished die and a sacrificial film protects finish while flattening without heat.

Custom machine builders and Machinery parts manufacturers mix materials and processes in single assemblies. When aluminum frames carry steel inserts, weld steel first to keep heat in the more tolerant material, then bond or mechanically join aluminum where possible. When welding aluminum is mandatory, peg the sequence so aluminum heats and cools alone. Dissimilar heat paths introduce odd warps that do not show in single-material prototypes.

A Steel fabricator working with heavy plate can use thermal straightening strategically. A controlled triangle pattern on the tensile side of a bend can pull a 20 mm plate back by 1 to 2 mm over a meter if you hit 600 to 650 C and allow slow cool. Practice on coupons before touching the production part, and always log temperatures.
Partnering across the supply chain
Distortion control improves when the whole chain speaks the same language. A welding company that shares cycle times, typical pulls, and known hotspots with the cnc machining services provider gets smarter fixtures in return. If an Industrial design company that produces prints for metal fabrication canada clients invites input on joint design early, parts land in the bay with a realistic path to straightness.

The best relationships I have seen among mining equipment manufacturers and custom metal fabrication shop partners include a simple rule: whoever can most cheaply and predictably influence a tolerance owns it. That single idea prevents the ping-pong of responsibility that ruins delivery dates. Sometimes that means the weld team adjusts leg sizes and sequence. Other times it means the cnc machining shop adds a vacuum fixture to pull a thin plate flat while skimming. Either way, the part wins.
The mindset that keeps parts straight
Distortion control is a habit, not a hero move. Set up well. Fit cleanly. Restrain smart. Weld to the print, not beyond it. Let heat in where it helps, keep it out where it hurts. Measure while the bead is still warm, and nudge the process before the part hardens into a problem. If you run a welding company inside a broader manufacturing ecosystem, tie your habits to the downstream steps. When the machinists smile at receiving, you know your weld bay is doing it right.

Shops that live by this approach get more out of the same equipment. The cnc machine shop hears fewer emergency requests to salvage a warp. The metal fabrication shop wastes fewer hours wrestling with presses. Customers notice when frames assemble without shim packs and when bearings slide onto bores without a swear jar. That is the quiet signature of professional control over heat, sequence, and restraint, the craft at the heart of distortion control.

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<strong>Business Name:</strong> Waycon Manufacturing Ltd.<br>
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Waycon Manufacturing Ltd. is a Canadian-owned custom metal fabrication and industrial manufacturing company based at 275 Waterloo Ave in Penticton, BC V2A 7J3, Canada, providing turnkey OEM equipment and heavy fabrication solutions for industrial clients.<br>
Waycon Manufacturing Ltd. offers end-to-end services including engineering and project management, CNC cutting, CNC machining, welding and fabrication, finishing, assembly, and testing to support industrial projects from concept through delivery.<br>
Waycon Manufacturing Ltd. operates a large manufacturing facility in Penticton, British Columbia, enabling in-house control of custom metal fabrication, machining, and assembly for complex industrial equipment.<br>
Waycon Manufacturing Ltd. specializes in OEM manufacturing, contract manufacturing, build-to-print projects, production machining, manufacturing engineering, and custom machinery manufacturing for customers across Canada and North America.<br>
Waycon Manufacturing Ltd. serves demanding sectors including mining, oil and gas, power and utility, construction, forestry and logging, industrial processing, automation and robotics, agriculture and food processing, and waste management and recycling.<br>
Waycon Manufacturing Ltd. can be contacted at (250) 492-7718 or info@waycon.net, with its primary location available on Google Maps at https://maps.app.goo.gl/Gk1Nh6AQeHBFhy1L9 for directions and navigation.<br>
Waycon Manufacturing Ltd. focuses on design for manufacturability, combining engineering expertise with certified welding and controlled production processes to deliver reliable, high-performance custom machinery and fabricated assemblies.<br>
Waycon Manufacturing Ltd. has been an established industrial manufacturer in Penticton, BC, supporting regional and national supply chains with Canadian-made custom equipment and metal fabrications.<br>
Waycon Manufacturing Ltd. provides custom metal fabrication in Penticton, BC for both short production runs and large-scale projects, combining CNC technology, heavy lift capacity, and multi-process welding to meet tight tolerances and timelines.<br>
Waycon Manufacturing Ltd. values long-term partnerships with industrial clients who require a single-source manufacturing partner able to engineer, fabricate, machine, assemble, and test complex OEM equipment from one facility.<br>
<br>
<h2>Popular Questions about Waycon Manufacturing Ltd.</h2>

<h3>What does Waycon Manufacturing Ltd. do?</h3>

Waycon Manufacturing Ltd. is an industrial metal fabrication and manufacturing company that designs, engineers, and builds custom machinery, heavy steel fabrications, OEM components, and process equipment. Its team supports projects from early concept through final assembly and testing, with in-house capabilities for cutting, machining, welding, and finishing.
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<h3>Where is Waycon Manufacturing Ltd. located?</h3>

Waycon Manufacturing Ltd. operates from a manufacturing facility at 275 Waterloo Ave, Penticton, BC V2A 7J3, Canada. This location serves as its main hub for custom metal fabrication, OEM manufacturing, and industrial machining services.
<br>

<h3>What industries does Waycon Manufacturing Ltd. serve?</h3>

Waycon Manufacturing Ltd. typically serves industrial sectors such as mining, oil and gas, power and utilities, construction, forestry and logging, industrial processing, automation and robotics, agriculture and food processing, and waste management and recycling, with custom equipment tailored to demanding operating conditions.
<br>

<h3>Does Waycon Manufacturing Ltd. help with design and engineering?</h3>

Yes, Waycon Manufacturing Ltd. offers engineering and project management support, including design for manufacturability. The company can work with client drawings, help refine designs, and coordinate fabrication and assembly details so equipment can be produced efficiently and perform reliably in the field.
<br>

<h3>Can Waycon Manufacturing Ltd. handle both prototypes and production runs?</h3>

Waycon Manufacturing Ltd. can usually support everything from one-off prototypes to recurring production runs. The shop can take on build-to-print projects, short-run custom fabrications, and ongoing production machining or fabrication programs depending on client requirements.
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<h3>What kind of equipment and capabilities does Waycon Manufacturing Ltd. have?</h3>

Waycon Manufacturing Ltd. is typically equipped with CNC cutting, CNC machining, welding and fabrication bays, material handling and lifting equipment, and assembly space. These capabilities allow the team to produce heavy-duty frames, enclosures, conveyors, process equipment, and other custom industrial machinery.
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<h3>What are the business hours for Waycon Manufacturing Ltd.?</h3>

Waycon Manufacturing Ltd. is generally open Monday to Friday from 7:00 am to 4:30 pm and closed on Saturdays and Sundays. Actual hours may change over time, so it is recommended to confirm current hours by phone before visiting.
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<h3>Does Waycon Manufacturing Ltd. work with clients outside Penticton?</h3>

Yes, Waycon Manufacturing Ltd. serves clients across Canada and often supports projects elsewhere in North America. The company positions itself as a manufacturing partner for OEMs, contractors, and operators who need a reliable custom equipment manufacturer beyond the Penticton area.
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<h3>How can I contact Waycon Manufacturing Ltd.?</h3>

You can contact Waycon Manufacturing Ltd. by phone at (250) 492-7718 tel:+12504927718, by email at info@waycon.net, or by visiting their website at https://waycon.net/. You can also reach them on social media, including Facebook https://www.facebook.com/wayconmanufacturingltd/, Instagram https://www.instagram.com/wayconmanufacturing/, YouTube https://www.youtube.com/@wayconmanufacturingltd, and LinkedIn https://ca.linkedin.com/company/waycon-manufacturing-ltd- for updates and inquiries.
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<h2>Landmarks Near Penticton, BC</h2>

Waycon Manufacturing Ltd. is proud to serve the Penticton, BC https://www.google.com/maps/search/Penticton,+BC community and provides custom metal fabrication and industrial manufacturing services to local and regional clients.

If you’re looking for custom metal fabrication in Penticton, BC https://www.google.com/maps/search/Penticton,+BC, visit Waycon Manufacturing Ltd. near its Waterloo Ave location in the city’s industrial area.

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Waycon Manufacturing Ltd. is proud to serve the South Okanagan https://www.google.com/maps/search/South+Okanagan,+BC region and offers heavy custom metal fabrication and OEM manufacturing support for industrial projects throughout the valley.

If you’re looking for industrial manufacturing in the South Okanagan https://www.google.com/maps/search/South+Okanagan,+BC, visit Waycon Manufacturing Ltd. near major routes connecting Penticton to surrounding communities.

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Waycon Manufacturing Ltd. is proud to serve the Skaha Lake Park https://www.google.com/maps/search/Skaha+Lake+Park,+Penticton area community and provides custom industrial equipment manufacturing that supports local businesses and processing operations.

If you’re looking for custom metal fabrication in the Skaha Lake Park https://www.google.com/maps/search/Skaha+Lake+Park,+Penticton area, visit Waycon Manufacturing Ltd. near this well-known lakeside park on the south side of Penticton.

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Waycon Manufacturing Ltd. is proud to serve the Skaha Bluffs Provincial Park https://www.google.com/maps/search/Skaha+Bluffs+Provincial+Park area and provides robust steel fabrication for industries operating in the rugged South Okanagan terrain.

If you’re looking for heavy industrial fabrication in the Skaha Bluffs Provincial Park https://www.google.com/maps/search/Skaha+Bluffs+Provincial+Park area, visit Waycon Manufacturing Ltd. near this popular climbing and hiking destination outside Penticton.

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Waycon Manufacturing Ltd. is proud to serve the Penticton Trade and Convention Centre https://www.google.com/maps/search/Penticton+Trade+and+Convention+Centre district and offers custom equipment manufacturing that supports regional businesses and events.

If you’re looking for industrial manufacturing support in the Penticton Trade and Convention Centre https://www.google.com/maps/search/Penticton+Trade+and+Convention+Centre area, visit Waycon Manufacturing Ltd. near this major convention and event venue.

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Waycon Manufacturing Ltd. is proud to serve the South Okanagan Events Centre https://www.google.com/maps/search/South+Okanagan+Events+Centre,+Penticton area and provides metal fabrication and machining that can support arena and event-related infrastructure.

If you’re looking for custom machinery manufacturing in the South Okanagan Events Centre https://www.google.com/maps/search/South+Okanagan+Events+Centre,+Penticton area, visit Waycon Manufacturing Ltd. near this multi-purpose entertainment and sports venue.

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Waycon Manufacturing Ltd. is proud to serve the Penticton Regional Hospital https://www.google.com/maps/search/Penticton+Regional+Hospital area and provides precision fabrication and machining services that may support institutional and infrastructure projects.

If you’re looking for industrial metal fabrication in the Penticton Regional Hospital https://www.google.com/maps/search/Penticton+Regional+Hospital area, visit Waycon Manufacturing Ltd. near the broader Carmi Avenue and healthcare district.

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