Welcome to your deep dive.
Oh, yeah.
Into cutting costs for injection molded products. We know you're already familiar with the basics, so we've dug deep to bring you some truly next level strategies. Get ready to discover how the tiniest decisions about materials, processes, even your equipment, can have a massive impact on your bottom line.
That's right. Think of this as unlocking those hidden levers that can make or break a project. We're aiming to give you the knowledge to become a true injection molding cost ninja.
I love that. A cost ninja. Okay, so before we get into the nitty gritty, what's the most mind blowing thing you uncovered in all this research? It really made you go, whoa, I never thought of it that way.
You know, I was struck by how much emphasis is placed on getting the right plastic, not just the cheapest one.
Right.
It's about understanding that cost performance ratio.
Yeah.
For example, I came across a case study where a toy company was using ABS plastic for a particular part. It was durable, sure, but way overkill in terms of strength.
So they were basically overspending on a material that was tougher than it needed to be.
Exactly. They switched to a general purpose polypropylene, which was significantly cheaper. It still met all the necessary safety and durability requirements. Okay, but slash their material costs by a whopping 40%.
Wow. 40%. Now that's what I call impactful. It makes you wonder how many companies are out there unknowingly overspending on materials.
It happens more often than you think. Yeah, that's why understanding material properties and matching them to product needs is so crucial. Yeah, it's not just about the initial price tag.
Right.
It's about long term value and avoiding those hidden costs down the line.
Okay, that totally makes sense. So smarter material selection is a big win. What else surprised you?
Well, I was really fascinated by the potential of recycled plastics. Yeah, we hear about sustainability. But the cost savings were also remarkable.
Right.
I found examples where companies were able to source recycled materials for half the price of virgin plastics.
That's a game changer both for the planet and the bottom line. Right, But I'm guessing it's not as simple as just swapping in any old recycled plastic. Right. There must be some considerations.
You're absolutely right. Not all recycled materials are created equal. Consistency and quality can vary. Yeah, and there are certain applications where virgin plastic is still the better choice. It's all about doing your research.
Okay.
Finding reliable suppliers and rigorously testing the material to make sure it meets your specific requirements.
Okay, so Smart material choices can lead to some.
Right.
But what about the actual injection molding process itself? I'm curious to learn how we can squeeze every bit of efficiency out of it.
You're thinking like a true cost ninja. And you're right. The process itself is ripe with optimization opportunities.
Okay.
It's amazing how even the tiniest tweaks to things like mold design or cooling systems can have a ripple effect on your costs.
All ears. Give me an example of one of these tiny tweaks that can make a big difference.
Let's talk about something called gas assisted injection molding.
Gas assisted? Yeah. I'm intrigued. How does that work?
Basically, you inject gas, usually nitrogen, along with the molten plastic, into the mold.
Okay.
This creates hollow sections within the part, reducing the amount of material needed without compromising strength or integrity. Think of it like building a bridge with strategically placed support beams.
So you're using less plastic overall.
Yeah.
Which obviously translates to lower material costs.
Clever, right? Are there any particular types of products where this technique really shines?
Oh, absolutely. It's particularly beneficial for larger parts with thick sections, like those used in automotive components, furniture, or even some electronic housings.
So if you're making something bulky, gas assisted molding could be your secret weapon for trimming down those material costs. Are there any downsides to this approach, or is it all sunshine and rainbows?
Well, it's not a one size fits all solution. The tooling is typically more complex, and.
The process requires precise control over gas pressure and injection timing. It's not necessarily suitable for every product, but when applied correctly, the benefits can be substantial.
Got it. So gas assisted molding is like a high reward, high skill maneuver. Definitely something to consider if you're dealing with larger, thicker parts.
Right.
What other process optimization tricks are up your sleeve?
Mold cooling is another area where seemingly small changes can make a huge difference.
Okay.
It's often overlooked, but think about it. The faster your molds cool, the quicker you can cycle through production runs.
Ah, so it's all about speed.
Yeah.
Faster cooling means more parts per hour.
Right.
Which translates to higher output and ultimately, lower costs per unit.
Precisely.
Okay.
There are all sorts of ways to optimize cooling.
Yeah.
From using high conductivity mold materials to incorporating conformal cooling channels that follow the contours of your part.
Interesting.
It might sound technical, but the payoff can be significant.
This is starting to feel like a real treasure hunt, uncovering all these hidden opportunities to boost efficiency. What else is there to discover?
Well, let's not forget about our injection molding machines. Themselves.
Okay.
While they might seem like a fixed cost, there's a surprising amount of room for improvement there too.
Okay, I'm all ears. Enlighten me on how we can get more bang for our buck from our machines.
One of the most impactful moves you can make is upgrading to all electric machines. They're incredibly energy efficient compared to traditional hydraulic models.
I've heard whispers about these all electric machines. How much energy are we talking about saving here?
We're not talking about a measly 5% or 10% here.
Wow.
Depending on your current setup, you could be looking at energy consumption reductions of up to 70%.
70%? That's astonishing. It's almost like swapping out a gas guzzling truck for an electric car in terms of energy savings.
Right.
But I'm guessing there's a catch. Right? Because all electric wonders probably come with a hefty price tag.
You're right. The initial investment can be higher.
Okay.
But don't let that scare you off. It's important to think long term.
Yeah.
Those energy savings add up quickly.
Okay.
Often leading to a faster return on investment than you might expect.
So it's about shifting our perspective from the upfront sticker price to the overall cost of ownership. I like that.
Exactly.
Okay.
And the beauty of these all electric machines is that they offer a ton of other benefits besides energy efficiency.
Okay.
They tend to be more precise, quieter, and require less maintenance.
Right.
All of which contribute to a smoother, more cost effective operation.
Okay. I'm starting to see the appeal, but what about companies that aren't in a position to shell out for brand new equipment?
Yeah.
Are there any cost saving hacks for those of us with older machines?
Absolutely. You don't always need to go for the complete overhaul.
Yeah.
Sometimes strategic upgrades can make a world of difference.
Like what, for example?
Well, one area that's often overlooked is control systems. Upgrading the brains of your older machines can significantly improve their accuracy, efficiency, and even lifespan.
It's like giving those old workhorses a new lease on life. What kinds of improvements are we talking about here?
Think about it. Better controls mean less waste.
Okay.
Higher product quality and potentially even faster cycle times.
Right.
It's amazing how much potential is hidden within those control panels.
That's brilliant. It's a great way to squeeze more value out of existing equipment without breaking the bank. I'm starting to see that there's a whole world of cost saving opportunities hiding in plain sight. What other secrets are you ready to reveal?
Well, let's not forget about one of the most crucial yet often underestimated aspects of class control.
Okay.
Mold maintenance.
Mold maintenance?
Yeah.
Why is that so important? I mean, once you've got a mold, it's good to go, right?
Oh, it's the only way. That simple?
Yeah.
Your molds are the unsung heroes of your injection molding operation.
Okay.
They're responsible for shaping your products. Yeah. And if it's not properly cared for, things can get messy and expensive very quickly.
Okay, I'm listening. Paint me a picture of what can go wrong when molds aren't properly maintained.
Imagine this. A worn out mold starts producing defective parts.
Okay.
Suddenly, you're dealing with increased scrap rates, rework costs.
Yeah.
And potentially even delays in fulfilling orders. Not to mention the risk of damaging your injection molding machine itself.
Yikes. That sounds like a recipe for disaster. So it's kind of like neglecting to change the oil in your car.
Yeah.
You might get away with it for a while, but eventually it's going to catch up with you.
That's a great analogy. Just like your car needs regular tlc.
Okay.
Your molds need routine cleaning, inspection and lubrication. A little bit of preventative maintenance goes a long way in extending their lifespan and avoiding those costly headaches down the road.
All right. I'm convinced mold maintenance is officially on my radar. Good. But before we move on.
Okay.
I'm curious to hear more about the role of quality control in all of this. You mentioned earlier that it's not just about inspecting finished products, but about weaving quality into every stage of the process. I'm intrigued by that idea. Can you elaborate?
Absolutely. Think of it this way. Quality control is like a ripple effect. It starts with the very first step, choosing the right materials and suppliers, and extends all the way through to production, inspection, and even packaging.
So it's not just about catching defects at the end of the line, but about preventing them from happening in the first place.
Exactly. And one of the most powerful ways to do that is by establishing a robust supplier qualification process.
Supplier qualification. Tell me more about that.
It's all about carefully vetting your suppliers to make sure they meet your quality standards.
Right.
It's about building strong relationships, setting clear expectations, and having a system in place to monitor and assess their performance.
So it's about choosing your partners wisely right from the start. Makes sense. What other quality control strategies are worth exploring?
Well, one that often gets overlooked is the importance of employee training.
Ah. So it's not just about having fancy inspection equipment, but about empowering your employees to be part of the quality control process.
You got it. By investing in training and creating a culture of quality throughout your organization.
Okay.
You're essentially turning everyone into a quality inspector.
I love that when everyone is on board with quality, it's much less likely that defects will slip through the cracks. Yeah, but how do you actually go about building that kind of culture? Is it just about holding a few training sessions or is there more to it?
It definitely goes deeper than just a few lectures.
Okay.
It's about creating systems that encourage everyone to take ownership of quality.
Yeah.
From operators on the shop floor to managers in the office.
Hmm. That sounds like a fascinating topic in itself, but we're getting a little off track here. Let's reel it back in. So we've talked about materials, equipment, process optimization.
Yeah.
Quality control. What else do we need to consider when it comes to slashing those injection molding costs?
One final point I'd like to emphasize is the power of data analysis. It's not just for tech giants anymore. It's a game changer for any injection molding operation.
We touched on this briefly earlier, but I'm eager to dive deeper. How can data analysis help us unlock those hidden cost saving opportunities?
Think of it as having a dashboard for your entire operation by tracking key metrics like cycle times, scrap rates, and energy consumption.
Yes.
You can pinpoint areas for improvement and make decisions based on hard evidence.
Okay.
Not just gut feeling.
Okay, I'm getting the picture.
Yeah.
But can you give me a specific example of how data analysis might reveal a hidden cost saving opportunity?
Sure. Imagine you're tracking your cycle times and notice they've been creeping up over the past few months.
Okay.
By diving into the data, you might discover that a particular mold is taking longer to cool than it used to.
Ah, so that's a sign that the mold might need some maintenance, like we talked about earlier. But without that data, you might not have even noticed the problem until it became much bigger and more expensive to fix.
Data analysis can be like an early warning system, Helping you anticipate problems and address them before they spiral out of control. It's all about turning data into actionable insights that can optimize your entire operation.
This is blowing my mind. It's like injection molding is becoming a science. With data as the guiding principle. I'm starting to see it in a whole new light.
It is becoming increasingly data driven. Yeah, and that's a good thing. It means we have more tools than ever to refine our processes.
Right.
Reduce waste, and ultimately boost profitability.
Feeling incredibly inspired and ready to put these insights into action. But before we get ahead of ourselves, I know our listeners probably thinking this is all great information.
Yeah.
But where do I even start?
That's a fantastic question.
Yeah.
And I think the key is to avoid feeling overwhelmed. Don't try to tackle everything at once. Choose one area that you think has the most potential for improvement in your specific operation and focus your energy there.
So if energy costs are eating into your profits, maybe exploring those all electric machines is a good first step.
Right.
Or if you're constantly battling quality issues, perhaps revamping your supplier qualification process should be your top priority.
Exactly. It's all about identifying your biggest pain point and strategically targeting your efforts.
Okay.
Once you've made some headway in one area, you can move on to the next. It's a continuous improvement journey.
Yeah.
And every step you take brings you closer to achieving those cost saving goals.
Okay. I'm loving this. It's not about finding a magic bullet, but about embracing a mindset of constant optimization. But we've covered a lot of ground in this first part of our deep dive.
Right.
Let's take a quick breather and come back refreshed and ready to explore even more cost saving strategies in the next part of our journey. See you soon.
Okay. Welcome back to your deep dive into injection molding cost reduction.
I'm excited to pick up where we left off. We've already uncovered so many valuable strategies.
And believe me, we've only just scratched the surface.
Okay, so before we go any further, I want to circle back to something you mentioned earlier. Sure. About all electric injection molding machines.
Right.
You said they can save a ton of energy, but they probably come with a higher upfront cost.
Right, that's true. But remember, it's crucial to consider the long term savings.
Right.
All electric machines may cost more initially.
Okay.
But their energy efficiency can lead to a faster return on investment than you might expect.
So it's kind of like investing in a more fuel efficient car. It might cost a bit more upfront.
Right.
But you'll save money on gas in the long run.
Precisely. And those savings can really add up over time.
Yeah.
Especially as energy costs continue to rise.
Okay, I'm starting to see the big picture here, but let's say a company isn't ready to make the leap to all electric machines.
Yeah.
Are there any other equipment related strategies they can consider?
Absolutely. As we discussed earlier, sometimes strategic upgrades to your existing equipment can make a world of difference.
Okay.
For example, let's talk about robotic automation.
Ooh. Robots. Now we're talking.
I know, right? But seriously, incorporating robots into your injection molding process can be a game changer.
Right.
When it comes to efficiency and cost.
Savings, I can see how robots could speed up production. Yeah, but how does that translate to actual cost reductions?
Well, for one thing, robots can work tirelessly around the clock.
Oh, wow.
Without breaks or fatigue. This means you can increase your production output without having to add more shifts or hire additional workers.
So it's like having a workforce that never sleeps.
Exactly. And because robots are so precise and consistent, they can also help to reduce defects and scrap rates, which further lowers your production costs.
That makes sense. Fewer defects mean less wasted material and less time spent on reworking.
Right. And let's not forget about safety. Robots can handle repetitive or dangerous tasks.
Oh, right.
Reducing the risk of workplace injuries for your human employees.
Okay, I'm convinced. Robots are definitely a powerful tool in the cost cutting arsenal. But let's shift gears for a moment and talk about something we haven't touched on yet.
Sure.
Mold design.
Ah, mold design. The unsung hero of injection molding.
Aha.
You're right. It plays a critical role in determining the cost and quality of your final product.
I'm imagining that a well designed mold can make production smoother and more efficient. Yeah, but how exactly does that impact costs?
A well designed mold is like a well oiled machine. It allows for even material flow, optimal cooling, and easy part ejection. All of these factors contribute to faster cycle times.
Right.
Reduce defects and lower overall production costs.
So it's not just about creating a mold that makes the part part. It's about designing a hold that makes the part efficiently.
Exactly. And there's so many clever design techniques that can be used to optimize the molding process.
Like what? Give me some examples.
One technique that I find fascinating is conformal cooling.
Conformal cooling. That sounds pretty high tech.
It is, but it's also incredibly effective. Traditional cooling channels and molds are typically straight. But with conformal cooling, the channels follow the contours of the part, allowing for more targeted and efficient cooling.
So instead of just blasting the entire mold with coolant.
Right.
You're strategically directing it to the areas that need it most.
Precisely. This can significantly reduce cooling times, which, as we discussed earlier, leads to faster cycle times and higher production output and.
Ultimately lower costs per unit.
Right.
I'm starting to see how all of these pieces fit together.
It's all interconnected. Every decision you make.
Right.
From material selection to mold design to process optimization, has an impact on your overall cost.
Okay. So we've talked about equipment, automation and mold design. What other areas should we be focusing on when it comes to squeezing every penny out of our injection molding operation?
One area that's often overlooked.
Okay.
But can have a huge impact on your bottom line Is energy consumption.
We touched on this earlier when we talked about all electric machines.
Right.
But are there other ways to reduce energy usage in injection molding?
Absolutely.
Yeah.
Even if you're not ready to invest in all electric machines.
Okay.
There are still plenty of steps you can take to optimize your energy consumption.
Like what? I'm all ears for energy saving tips.
Well, one simple but effective strategy is to make sure your facility is properly insulated. This will help to prevent heat loss.
Okay.
Reducing the amount of energy needed to maintain the optimal temperature for your injection molding process.
So it's like wearing a warm coat in the winter. You lose less heat so you don't have to crank up the thermostat.
Exactly. And speaking of thermostats, make sure you're using programmable thermostats to control the temperature in your facility.
Okay.
This will allow you to automatically adjust the temperature based on your production schedule.
Right.
So you're not wasting energy when the machines aren't running.
Ah. So it's like setting a timer on your heating system. You only use energy when you need it.
Right. Another area to focus on is your lighting system.
Okay.
Upgrading to energy efficient LED lighting can significantly reduce your electricity consumption.
LED lights are a no brainer these days. They're brighter, longer lasting, and use way less energy.
Exactly. And they can make a real difference to your energy bill. Especially if you have a large facility with lots of lights.
Okay. So we've got insulation, thermostats, and lighting.
Yeah.
What else can we do to become energy saving ninjas?
Another strategy that's gaining popularity is the use of renewable energy sources.
Okay.
Like solar power.
Solar power for injection molding.
Yeah.
That sounds intriguing.
It is. Installing solar panels on your facility can help to offset your reliance on traditional energy sources.
Right.
Reducing your carbon footprint and your energy costs.
So you're not only saving money.
Right.
But you're also doing your part for the environment. It's a win. Win.
Exactly.
Yeah.
And as the cost of solar technology continues to decline, it's becoming an increasingly viable option for businesses of all sizes.
Okay. I'm starting to see how energy efficiency is not just about being eco friendly. It's also a smart business decision.
Absolutely.
Yeah.
Every kilowatt hour you save is money. Back in your pocket.
All right, so we've covered a lot of ground on energy efficiency.
Yeah.
But let's not forget about the human element of cost reduction.
You're right. At the end of the day, it's your employees who make it all happen.
So how can we empower our team to be part of the cost cutting journey?
One of the most effective ways is to implement a system for tracking and rewarding cost saving ideas.
Ah, so it's about incentivizing employees to think outside the box.
Yeah.
And come up with creative solutions.
Exactly. When employees feel like their contributions are valued and rewarded.
Right.
They're more likely to be engaged and proactive in finding ways to improve efficiency and reduce costs.
It's like turning cost cutting into a game. Everyone's working together to achieve a common goal.
Exactly. And it can be a lot of fun too.
Yeah.
You might be surprised at the innovative ideas your team can come up with when they're given the opportunity.
Okay, I'm sold. Employee engagement is a key ingredient in the cost cutting recipe. But what about the other side of the coin? How do we deal with potential pushback or resistance to change?
That's a great question. And it's something that every business leader needs to be prepared for.
Right.
Change can be uncomfortable, especially when it involves long standing processes or habits.
So how do we navigate those choppy waters? Any tips for leading a team through a period of transition?
Communication is key.
Okay.
It's important to be transparent with your team about why you're making changes and how those changes will benefit both the company and the employees themselves.
So it's about painting a clear picture of the destination and making sure everyone understands why we're embarking on this journey.
Exactly. And it's also important to involve your team in the process as much as possible.
Okay.
Ask for their input, listen to their concerns, and be open to feedback.
That makes sense. When people feel like they're part of the solution.
Yeah.
They're more likely to embrace the changes.
Right. And don't forget to celebrate successes along the way. Even small wins can help to build momentum and keep your team motivated.
I love that idea. It's about creating a positive and supportive environment where everyone feels empowered to contribute.
Exactly. And when you have that kind of culture in place, cost cutting becomes less of a chore and more of a collaborative effort.
This has been an incredibly insightful conversation. So far, we've covered everything from equipment upgrades to employee engagement to the importance of embracing change. Yeah, but we're not quite done yet. In the final Part of our deep dive, we'll explore some advanced strategies for taking your cost cutting efforts to the next level. Stay tuned.
Okay.
Welcome back to the final part of our deep dive into mastering injection molding costs.
It's been quite a journey, hasn't it?
It really has. We've uncovered so many smart strategies, from material selection to process optimization to employee engagement. I feel like we've barely scratched the surface, though.
You're right. There's always more to explore in the world of injection molding.
Okay, so for this last part, I'm curious to delve into some of the more advanced or maybe even unconventional cost saving techniques. What's something that most people in the industry might not even be thinking about?
You know, one area that's often overlooked is the impact of design for manufacturing, or dfm.
Dfm. Okay, I'm all ears. Break that down for me.
Essentially, it's about designing your products from the very beginning with the manufacturing process in mind.
Okay.
Too often, products are designed in isolation without considering how they'll actually be made.
Yeah.
This can lead to all sorts of problems down the line, driving up costs and creating unnecessary headaches.
So it's about bridging the gap between the designers and the folks on the shop floor, making sure everyone is on the same page from the get go.
Exactly. And the benefits of DFM can be huge.
Okay.
When you design a product that's easy to manufacture, you streamline the entire process. You reduce the need for complex tooling, minimize material waste, and simplify assembly. All of this translates directly to lower costs.
Okay. I'm starting to see the power of dfm, but how does it actually work in practice? Can you give me a real world example?
Sure. Imagine you're designing a plastic housing for an electronic device.
Okay.
If you design it with lots of intricate details, undercuts or sharp corners, it's going to make the mold incredibly complex and expensive to produce.
Ah, I see where you're going with this.
Yeah.
So by simplifying the design, you're also simplifying the mold, which saves money and reduces the risk of manufacturing defects.
Exactly. And it's not just about simplifying the geometry.
Right.
You also want to think about things like wall thickness, draft angles, and the location of parting lines. All of these factors can impact the manufacturability of a part and ultimately its cost.
This is fascinating. It makes me realize how much potential there is to save money simply by thinking about manufacturing from the very beginning of the design process. But let's move on. What other advanced techniques Are you excited about?
One area that's really gaining momentum is the use of simulation software.
Simulation software. How does that fit into the world of injection molding?
Simulation software allows you to virtually model the injection molding process before you even cut a single piece of steel for your mold.
So you're basically creating a digital twin of the process.
Exactly. You can input all the variables.
Okay.
The material properties, the mold design, the processing parameters. And the software will show you how the plastic will flow, cool, and solidify. It's like having a crystal ball that predicts how your part will turn out.
Wow. That's incredible. But how does this translate to actual cost savings?
By identifying potential problems early on.
Okay.
Before you've invested time and money in building a physical mold.
So you're basically mitigating risk and avoiding costly mistakes.
Precisely. Let's say the simulation shows that your part is prone to warping or sink marks.
Yeah.
You can then adjust the design or processing parameters in the virtual world before you commit to making a physical mold. This can save you thousands of dollars in rework or scrap costs.
That's a powerful tool. It seems like simulation software is becoming indispensable for any injection molding operation that wants to stay ahead of the curve. What else is out there that can give us that competitive edge?
One more area I'd like to touch on is the growing Trend of Industry 4.0.
Industry 4.0. That sounds like something out of a science fiction movie.
It might sound futuristic, but it's already happening. Industry 4.0 is all about the integration of digital technologies into manufacturing.
Okay.
Think about things like Internet of things, IoT sensors, cloud computing, and artificial intelligence.
So it's like the Internet of Things is coming to the factory floor.
Exactly. By connecting your machine, sensors and data systems, you create a smart factory that can optimize itself in real time. This can lead to incredible improvements in efficiency, quality, and ultimately cost savings.
I can see how having all that data at your fingertips would be incredibly valuable. But how does Industry 4.0 actually impact injection molding costs?
In countless ways. For example, imagine you have sensors embedded in your molds that monitor temperature, pressure, and cycle times. That data can be fed into a cloud based system that analyzes it in real time.
Right.
And automatically adjusts the process parameters to maintain optimal conditions.
So you're essentially creating a self learning system that constantly refines itself.
Exactly. This can lead to reduced defects, faster cycle times, and more consistent product quality, all of which contribute to lower costs.
Okay. I'm starting to see how Industry 4.0 is not just a buzzword. It's a real game changer for manufacturers. But let's bring this back down to earth for a moment. We've covered so many advanced techniques. I'm wondering how our listener is supposed to make sense of it all.
That's a valid point. It can be overwhelming to try to implement everything at once.
So where do we even start? What's the first step on this journey towards cost mastery?
I think the most important thing is to simply be aware of the possibilities. Don't be afraid to explore new ideas and challenge conventional thinking.
So it's about having a curious mindset and always looking for ways to improve.
Exactly. And don't be afraid to ask for help. There are so many resources available, from industry consultants to software vendors to equipment suppliers.
Right.
They can provide guidance and support as you navigate the complexities of injection molding cost reduction.
That's a great point. Sometimes bringing in outside expertise can be the key to unlocking those hidden cost saving opportunities. But before we wrap up, I want to leave our listener with one final thought to ponder.
I'm listening.
Imagine you could wave a magic wand and implement just one of the strategies we've discussed today. Which one would you choose? And what kind of impact do you think it would have on your business?
That's a great question to reflect on, because ultimately the best cost saving strategy is the one that's tailored to your specific needs and goals.
Well said. This deep dive has been an incredible journey, and I hope our listener feels empowered to take control of their injection molding costs. It's not about magic wands or silver bullets. It's about making smart, strategic choices that drive efficiency and profitability.
And remember, the pursuit of cost optimization is never truly finished. It's a continuous journey of improvement and innovation.
Thank you for joining us on this deep Dive. We hope you've gained valuable insights and are ready to embark on your own cost saving adventure.
Until next