Article | January 4, 2022
Content marketing for manufacturers has become an essential component of every organization, and the manufacturing industry is no exception. Manufacturers are concentrating more on increasing their presence in both the digital and physical markets. As a result, the content market is seeing a boom as novel techniques are aimed at reaching the end objective of the manufacturing company.
According to PRNewswire, the worldwide content marketing industry is expected to increase by USD 417.85 billion between 2021 and 2025, at a CAGR of over 16%.
“Marketing is no longer about the stuff that you make, but about the stories you tell.”
– Seth Godin
Why Is Content Marketing Critical to Your Business's Success?
Helps in the formation of your brand's identity
Enables you to take advantage of organic search results
Performance is easy to assess
Produces leads and attracts ideal buyers
It balances the playing field, resulting in a higher ROI
It enables you to benefit from social shares
It entices visitors to return to your website on a regular basis
Manufacturing Content Marketing Strategies That Work
Recognize the Buyer's Pain Points
Writing amazing content requires knowing your target audience. Knowing your ideal customers helps you generate content that is relevant to them. When your potential buyer visits your website and finds content that answers his or her inquiries, you've already removed one hurdle for your sales staff.
How does your sales team define a good prospect?
Who are they?
What do they do?
Why are they visiting your business?
What is their industry knowledge?
The answers to all such questions influence what and how you write. Once you start recognizing your buyers, you can get the prospect and confidence in your organization to address your buyer’s difficulties.
Do Research on Keywords
Everyone appears to believe that skipping keyword research is acceptable. However, this is not the case. If you want to focus on marketing activities that yield big returns, you need a best manufacturer content marketing strategy backed by solid SEO.
Keyword research is the first step. Use one of the numerous internet keyword research tools to find terms with high search traffic, low competition, and relevance to your manufacturing company's activity. The better your keyword research, the better your content approach.
Create and Schedule Consistently Excellent Content
Writing outstanding content is by far the greatest strategy to increase your manufacturing company's SERP rank.
Hire a good content writer or content strategist who can combine your technical expertise, keywords, and purpose into a meaningful blog, case study, or content offer that gets results. Your material must be good to rank well.
Irregular content, like scattered production, always spells disaster. Having a defined timetable that your audience understands is essential to successful content marketing. Whether you produce material weekly, monthly, or quarterly, a timetable ensures that content is consistently released and updated.
Make Your Content More Visible
Once your content is ready, make your content visible to your target audience. Get your content marketing for manufacturing plan going to promote it in every way.
You're in a tough spot when it comes to content marketing for manufacturers. To stay ahead of the competition, you must constantly monitor the performance of your materials.
Keep an eye on everything you create and promote. Analyze which content form is performing well. Is it a blog? A time-lapse video? Or infographics? Identify your best-performing content so you can develop more of it.
Also focus on the content that doesn't perform well. Consider why that content didn't work for your audience. Is it too hard to rank that post? Is there a better platform or medium for the content? All of these queries must be answered to establish a strong content strategy for your company.
Optimize Your Content Marketing
The lack of industry-specific content marketing tactics is a major challenge for manufacturers. Many businesses use a generic strategy that ignores their particular customer connections, making different types of content marketing for manufacturers ineffective.
As the manufacturing business is a specialized business in any particular area, they also need specific content marketing strategies. Hence, focus on building a unique content marketing strategy that would help you optimize your business reach to your target audience.
General Electric Is Taking the Lead on Social Media
GE has come a long way from its 1892 beginnings. While it has retained basic product streams such as lighting, transportation, and power transmission, the goods themselves have developed dramatically. Social media marketing has become increasingly important as new technology transforms the corporate scene.
GE's Instagram Presence
GE's Instagram feed is an excellent illustration of widespread appeal. GE always shares attractive photographs with full explanations. It recognizes the power of pictures and captures common scenes in fascinating ways.
Utilizing cutting-edge content marketing methods for manufacturing businesses is critical for increasing your business's visibility and reach with your target audience. Ascertain that you select the appropriate techniques to advance your digital and physical presence in the industry. Discover the most effective plan for manufacturing content marketing and change your present marketing methods into more refined and up-to-date ones.
What are the best ways to market a manufacturing company?
The best approaches to advertising any manufacturing business are to concentrate on improving content, email marketing, SEO, press releases, and event sponsorship.
Is marketing vital for manufacturers?
Yes, since marketing opens up a whole new world for manufacturers, and a strong brand helps any business stand out from the competition.
Article | December 16, 2021
Computer-aided manufacturing (CAM) is a technology that revolutionized the manufacturing business. Pierre Bézier, a Renault engineer, produced the world's first real 3D CAD/CAM application, UNISURF CAD. His game-changing program redefined the product design process and profoundly altered the design and manufacturing industries.
So, what is CAM in its most basic definition?
Computer-aided manufacturing (CAM) is the application of computer systems to the planning, control, and administration of manufacturing operations. This is accomplished by using either direct or indirect links between the computer and the manufacturing processes. In a nutshell, CAM provides greater manufacturing efficiency, accuracy, and consistency.
As technology takes over and enhances many of the processes we used to handle with manual labor, we are freed up to use our minds creatively, which leads to bigger and better leaps in innovation and productivity.”
– Matt Mong, VP Market Innovation and Project Business Evangelist at Adeaca
In light of the numerous advantages and uses of computer-aided manufacturing, manufacturers have opted to use it extensively. The future of computer-aided manufacturing is brightening due to the rapid and rising adoption of CAM.
According to Allied Market Research, the global computer-aided manufacturing market was worth $2,689 million in 2020 and is expected to reach $5,477 million by 2028, rising at an 8.4% compound annual growth rate between 2021 and 2028.
Despite all this, each new development has benefits and challenges of its own. In this article, we'll discuss the benefits of CAM, the challenges that come with it, and how to deal with them. Let's start with the advantages of computer-aided manufacturing.
Benefits of Computer Aided Manufacturing (CAM)
There are significant benefits of using computer-aided manufacturing (CAM). CAM typically provides the following benefits:
Increased component production speed
Maximizes the utilization of a wide variety of manufacturing equipment
Allows for the rapid and waste-free creation of prototypes
Assists in optimizing NC programs for maximum productivity during machining
Creates performance reports automatically
As part of the manufacturing process, it integrates multiple systems and procedures.
The advancement of CAD and CAM software provides visual representation and integration of modeling and testing applications.
Greater precision and consistency, with similar components and products
Less downtime due to computer-controlled devices
High superiority in following intricate patterns like circuit board tracks
Three Challenges in CAM and Their Solutions
We have focused on the three primary challenges and their solutions that we have observed.
Receiving Incomplete CAD Updates
Receiving insufficient CAD updates is one of the challenges. If, for example, the part update from a CAD engineer does not include the pockets that are required in the assembly, to the CAM engineer.
SOLUTION: A modeler that enables developers of a CAM programs to create intuitive processes for features such as feature extraction and duplication across CAD version updates. A modeler is capable of recognizing and extracting the pocket's architecture and the parameters that define it. Additionally, the CAM application can enable the engineer to reproduce the pocket in a few simple steps by exploiting the modeler's editing features such as scaling, filling, extruding, symmetrical patterning, and removing.
Last Minute Design Updates
The second major challenge is last-minute design changes may impact manufacturers as a result of simulation.
SOLUTION: With 3D software components, you may create applications in which many simulation engineers can work together to make design modifications to the CAD at the same time, with the changes being automatically merged at the end.
Challenging Human-driven CAM Manufacturing
The third major challenge we have included is that CAM engineers must perform manual steps in human-driven CAM programming, which takes time and requires expert CAM software developers. Furthermore, when the structure of the target components grows more complicated, the associated costs and possibility of human failure rise.
SOLUTION: Self-driving CAM is the best solution for this challenge. Machine-driven CAM programming, also known as self-driving CAM, provides an opportunity to improve this approach with a more automated solution. Preparing for CAM is simple with the self-driving CAM approach, and it can be done by untrained operators regardless of part complexity. The technology handles all of the necessary decisions for CAM programming operations automatically. In conclusion, self-driving CAM allows for efficient fabrication of bespoke parts, which can provide substantial value and potential for job shops and machine tool builders.
Computer Aided Manufacturing Examples
CAM is widely utilized in various sectors and has emerged as a dominant technology in the manufacturing and design industries. Here are two examples of sectors where CAM is employed efficiently and drives solutions to many challenges in the specific business.
Virtual 3D prototype systems, such as Modaris 3D fit and Marvellous Designer, are already used by designers and manufacturers to visualize 2D blueprints into 3D virtual prototyping. Many other programs, such as Accumark V-stitcher and Optitex 3D runway, show the user a 3D simulation to show how a garment fits and how the cloth drapes to educate the customer better.
Aerospace and Astronomy
The James Webb Space Telescope's 18 hexagonal beryllium segments require the utmost level of precision, and CAM is providing it. Its primary mirror is 1.3 meters wide and 250 kilograms heavy, but machining and etching will reduce the weight by 92% to just 21 kilograms.
What is the best software for CAM?
Mastercam has been the most extensively utilized CAM software for 26 years in a row, according to CIMdata, an independent NC research business.
How CAD-CAM helps manufacturers?
Customers can send CAD files to manufacturers via CAD-CAM software. They can then build up the machining tool path and run simulations to calculate the machining cycle times.
What is the difference between CAD and CAM?
Computer-aided design (CAD) is the process of developing a design (drafting). CAM is the use of computers and software to guide machines to build something, usually a mass-produced part.
Article | July 28, 2021
Rex Moore Group, Inc. is a Top50 electrical contractor delivering unmatched integrated electrical solutions. As an early adopter of Lean manufacturing principles, Rex Moore has created a company-wide culture of continuous improvement that drives significant value to their clients. The firm contracts and performs both design/build and bid work for all electrical, telecommunications, and integrated systems market segments.
Rex Moore has a full-service maintenance department to cover emergency and routine requirements for all facilities, whether an existing facility or one that has been recently completed by the company. The ability to negotiate and competitively bid various forms of contracts including lump-sum, fixed fee, hourly rate, and cost-plus work as a prime contractor, subcontractor, or joint venture is enhanced with Project Business Automation (PBA) from Adeaca. This solution permits the company to propose work only if they are in a position to be competitive in the marketplace and provide excellent service with fair compensation.
Rex Moore used Adeaca PBA as a construction management software for builders and contractors to integrate and facilitate its business processes in its ERP system. Together with Microsoft Dynamics, PBA integrated processes across the company on a single end-to-end platform. This allowed the company to replace 15 different applications with a single comprehensive system, eliminating the costs and inefficiencies associated with multiple systems and silos of information.
Article | December 21, 2021
When it comes to developing a budget for the following financial year of your manufacturing business, many operations managers start with direct labor and material expenditures. But, what about manufacturing overhead costs?
Manufacturing overhead is any expense not directly tied to a factory's production. Therefore, the indirect costs in manufacturing overhead can also be called factory overhead or production overhead.
Outsourcing and globalization of manufacturing allows companies to reduce costs, benefits consumers with lower-cost goods and services, and causes economic expansion that reduces unemployment and increases productivity and job creation.
– Larry Elder
So, this article focuses on some highly effective overhead cost reduction methods that would help you build a healthy budget for the following year.
Manufacturing Overhead Costs: What Is Included?
Everything or everyone within the factory that isn't actively producing items should be considered overhead.
The following are some of the variables that are considered overhead costs:
Depreciation of equipment and productionfacilities
Taxes, insurance, and utilities
Supervisors, maintenance, quality control, and other on-site personnel who aren't producing signs
Indirect supply from light bulbs to toilet paper is also included in the overhead cost.
Manufacturing Overhead Costs: What Is Excluded?
Everything or everyone within or outside the factory that is actively producing items should be excluded from the overhead costs.
Factory overhead does not include the following:
Employee costs for those making the goods daily
External administrative overhead, such as a satellite office or human resources
Costs associated with C-suite employees
Expenses associated with sales and marketing - include pay, travel, and advertising
How to Calculate Overhead Costs in Manufacturing
To know the manufacturing overhead requires calculating the manufacturing overhead rate. The formula to calculate the manufacturing overhead rate i.e. MOR is basic yet vital.
To begin, determine your overall manufacturing overhead expenses. Then, add up all the monthly indirect expenditures that keep manufacturing running smoothly.
Then you can calculate the Manufacturing Overhead Rate (MOR). This statistic shows you your monthly overhead costs as a percentage.
To find this value, divide Total Manufacturing Overhead Cost (TMOC) by Total Monthly Sales (TMS) and multiply it by 100. The final formula will be:
Assume your manufacturing overhead expensesare $50,000 and your monthly sales are $300,000. You get.167 when you divide $50,000 by $300,000. Then increase that by 100 to get your monthly overhead rate of 16.7%.
This means your monthly overhead expenditures will be 16.7% of your monthly income. Being able to forecast and develop better solutions to decrease production overhead.
Five Ways to Reduce Manufacturing Overhead Costs
A variety of strategies may be used by manufacturing organizations to reduce their overhead costs. Here is a summary of some of the most important methods for reducing your manufacturing overhead costs.
Value Stream Mapping – A Production Plant Process Layout
A value stream map depicts the entire manufacturing process of your plant. Everything from raw material purchase through client delivery is detailed here. The value stream map provides you with a complete picture of the profit-making process. This overhead cost-cuttingmethod is listed first for a reason because every effort to reduce manufacturing overhead costsstarts with a value stream map.
Lean manufacturingis also one of the techniques of eliminating unnecessary time, staff, and work that is not necessary for profit and has gained undue favor in the manufacturing process. You must first create a value stream map of the whole manufacturing process for this technique to work. Once the lean manufacturing precept is established, the following strategies for decreasingmanufacturing overhead expenses can be examined.
Do Not Forget Your Back Office Management
Before focusing on factory floor cost reduction techniques, remember that your back offices, where payment processing and customer contacts occur, may also be simplified and increase profitability. Fortunately, automation can achieve this profitability at a cheap cost.
Manufacturers increasingly use robotic process automation (RPA) to sell directly to customers rather than rely on complex supply networks. This automation eliminates costly human mistakes in data input and payment processing by automatically filling forms with consumer data. Moreover, the time saved from manual data input (and rectifying inevitable human errors) equates to decreased labor expenses and downtime.
Automating Your Manufacturing Plant
For a long time, manufacturers saw factory automation as a game-changer. As a result, several plant owners make radical changes in their operations using cutting-edge technologydespite knowing it realistically. Over-investing in technologies unfamiliar to present industrial personnel might be deemed a technology blunder. Investing in new technology that doesn't generate value or is too hard for current staff to use might be a mistake.
It's usually best to start small when implementing newtechnology in manufacturing. Using collaborative robots in production is one way to get started with automation. They are inexpensive, need little software and hardware, and may help employees with mundane, repeated chores that gobble up bandwidth. It is a low-cost entry point into automation that saves labor expenses and opens the door for further automation investments when opportunities are available.
Reuse Other Factory Equipment and Supplies
Check with other factories to see if they have any unused equipment or supplies that may be "redeployed" to your manufacturing plant. Redeployment would save you time and money by eliminating the need to look for and install new equipment while lowering your overhead costs.
Outsourcing a fully equipped factory, equipment, or even staff can also assist in lowering overhead costssince you will only pay for what you utilize. As such, it is a viable method to incorporate into your production process.
Employ an In-house Maintenance Expert
An in-house repair technician can service your equipment for routine inspections, preventive maintenance, and minor repairs. This hiring decision might save money on unforeseen repair expenses or work fees for an outside repair provider. Having someone on-site who can do emergency repairs may save you money if your equipment breaks after business hours.
Manufacturing overhead costis an essential aspect of every manufacturing company's budget to consider. Smart manufacturingis intended to be productive, efficient, and cost-effective while effectively managing production expenditures. Calculating the manufacturing overheadcan provide you with a better understanding of your company's costs and how to minimize them. Depending on the conditions or geographical needs, each manufacturing plant's overhead expensesmay vary. As a result, identify your production overhead costsand concentrate on reducing and improving them.
What are manufacturing overheads?
Manufacturing overhead cost is a sum of all indirect expenses incurred during production. Manufacturing overhead expenses usually include depreciation of equipment, employee salaries, and power utilized to run the equipment.
What is a decent overhead percentage?
When a business is functioning successfully, an overhead ratio of less than 35 % is considered favorable.
How can I calculate the cost of manufacturing per unit?
The overall manufacturing cost per unit is determined by dividing the total production expenses by the total number of units produced for a particular time.