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Suggest You - An Introduction to Rotary Hot Stamping
Promoting your business is extremely important and every business owner knows the importance of new, interesting and effective advertising and the impact it can have on business. By finding new and different ways to promote your business, you can put a whole new face on your company.A great way to introduce a new wave of advertising to your business is to look at promotional pens. You can literally write your own business by handing out promotional pens. Promotional pens are advertising that moves around with your customers and are also something that your customers will be able to use.Think about how many times a day you use a pen and all the places that you use them. Women keep pens in their purse, men keep them in their pockets. Think of all of the places that you 'lose' pens - now if one of your customers loses a pen in a public venue, chances are someone else will pick it up and use it, move it and definitely read what is on the pen which directs traffic to your business.Pro
Foil is transferred to the substrate when a heated die forces the foil onto the substrate against the anvil. The die must be hot enough to activate the adhesive (sizing) on the back of the roll leaf and adhere it to the substrate. The die also performs the very important function of cutting the foil all around the perimeter of the detail being transferred. Without this cutting action the foil will bridge across any small reverses in the copy.
ROTARY HOT STAMPING The information provided up to this point is general and applies to both rotary and flat bed hot stamping. In rotary hot stamping the time element in our transfer formula becomes an inverse function of press speed. Since the contact point between two rollers is theoretically a line this time function becomes very short. A good point of reference is that at 100 FPM 0.020” of material goes by in one millisecond, it takes about 75-100 millisecond to blink your eye.
This extremely short dwell ti
In this world of hustle and bustle, we tend to sometimes forget about the basic principles of good customer service. It wasn't until my latter years of military service, when I was introduced to what was then called Total Quality Management. Over the years I'm sure the name has changed, and more has been added to it. All in all it comes down to the very basic point, that no matter who you are whether you are the purchaser, or the seller we all are each others customer.I'll give you a few minutes to let that one sink in. That's right we all are expecting a specific outcome from each other. So how we approach each situation no matter which end we are on, will determine the outcome of if we make the sale or if we receive the goods. It is one big continuous circle that encompasses not just our business affiliation, but everything we do in life. Remember your parents telling you, "you reap what you sow", and another favorite saying "what goes around comes around."So here is my point, when d
Main Components of the Hot Stamping Process:
ANVIL Usually made of a hard rubber or phenolic. The anvil must be hard enough to resist cupping under the load of the die, soft enough to protect the die from irregularities in the substrate, and resilient enough not to take a set through repeated pounding.
SUBSTRATE A wide variety of substrates are suitable for the hot stamping process. Surface tension of the substrate has the same affect on hot stamping as it does on printing. In addition to surface tension, the porosity of the material has a profound affect on stamping speed. A dry material will tend to cool the foil before it gets a chance to adhere properly. The resulting stamp will show a mottled surface similar to how ink looks on such a material. As a rule of thumb, a material that prints well will also stamp well.
ROLL LEAF Also known as Foil Roll leaf is the ink of a hot stamping operation. It is made up of a carrier with a series of coatings to be transferred. The carrier is made from polyester film that can range from just under 0.0005” to about 0.0015”. The thinner the carrier, all other things being equal, the faster the foil will transfer.
The first layer applied to the carrier is a thin release coat. This layer affects whether or not a foil is suitable for fine copy or heavy coverage and affects the “cutting” properties of the foil.
The second layer called the “tie” or “color” coat serves dual purposes in a roll leaf product. The first function of this layer is to provide a hard abrasion resistant surface to the foil when applied. At 1.2-1.5 microns the tie coat makes up about 30% of the transferred product. Since the metallic layer is always made from aluminum, a tint is required to make a gold or other colored metallic . This tint is the second function of the tie coat.
Under the tie coat is a vacuum deposited aluminum layer. This is the most opaque layer in the construction even though it is only 0.02-0.05 microns thick. This layer has no structural integrity of its own.
The final layer in the foil construction is the sizing. This is a heat-activated adhesive that glues the foil image to the substrate. At 1.5-3 microns this layer makes up 50-70% of the transferred product. A thin layer of sizing cuts cleanest and tends to work best on films or high gloss materials. Heavily sized products do a better job of filling a more porous substrate.
HOT STAMPING DIE The hot stamp die is an engraved plate where the non-printing areas are relieved. It is important that the material used holds as much thermal energy as possible at the surface. Copper alloys excel in this area and are used almost exclusively in rotary applications where dwell times are extremely short. There are two primary methods of engraving hot stamp tooling.
The original method is photoengraving. In this process the image is transferred via a photographic negative. The unwanted metal is then etched away by a strong acid. The process is very similar to printed circuit board production. The advantage of photoengraving is that as the complexity and scale of the image increases the cost remains more or less fixed. The disadvantage is that as image complexity decreases the cost remains more or less fixed. Photoengraving is a high overhead process that excels in producing complex images.
A more recent method of producing hot stamp tooling is CNC engraving. In this process the image is taken in an electronic format and specialized software generates tool paths that remove the unwanted material. The advantage of CNC engraving is that simple images can be produced very efficiently. As the quantity and complexity of the image increases the cost increases proportionately. CNC engraving is a low overhead operation that most efficiently produces less complex images.
HEAT + PRESURE + TIME = FOIL TRANSFER.
Foil is transferred to the substrate when a heated die forces the foil onto the substrate against the anvil. The die must be hot enough to activate the adhesive (sizing) on the back of the roll leaf and adhere it to the substrate. The die also performs the very important function of cutting the foil all around the perimeter of the detail being transferred. Without this cutting action the foil will bridge across any small reverses in the copy.
ROTARY HOT STAMPING The information provided up to this point is general and applies to both rotary and flat bed hot stamping. In rotary hot stamping the time element in our transfer formula becomes an inverse function of press speed. Since the contact point between two rollers is theoretically a line this time function becomes very short. A good point of reference is that at 100 FPM 0.020” of material goes by in one millisecond, it takes about 75-100 millisecond to blink your eye.
This extremely short dwell tim
When you regularly utilize folding tables and chairs in a public setting - such as in a hotel banquet room, a school, a church, or a community center - they're likely to be subjected to extreme usage. The hinges on folding tables get a workout from being taken up and down regularly, while chairs can be knocked out of shape when they're being stacked up, set up, and dragged around a room. Because folding tables and chairs represent a substantial investment, if you're not careful in selecting the best folding tables and chairs for your purpose, your budgeted one-time expenditure may become a recurring expense. Whenever you shop for folding tables, you should keep these features in mind: Leg Design: The legs should be attached through the top of the table, ideally with bolts. Legs that screw into the top will eventually detach. Top Design: Look for high impact plastic or a polyurethane cast top that will allow the sides and corners of the table to absorb impact. Avoid to
The first layer applied to the carrier is a thin release coat. This layer affects whether or not a foil is suitable for fine copy or heavy coverage and affects the “cutting” properties of the foil.
The second layer called the “tie” or “color” coat serves dual purposes in a roll leaf product. The first function of this layer is to provide a hard abrasion resistant surface to the foil when applied. At 1.2-1.5 microns the tie coat makes up about 30% of the transferred product. Since the metallic layer is always made from aluminum, a tint is required to make a gold or other colored metallic . This tint is the second function of the tie coat.
Under the tie coat is a vacuum deposited aluminum layer. This is the most opaque layer in the construction even though it is only 0.02-0.05 microns thick. This layer has no structural integrity of its own.
The final layer in the foil construction is the sizing. This is a heat-activated adhesive that glues the foil image to the substrate. At 1.5-3 microns this layer makes up 50-70% of the transferred product. A thin layer of sizing cuts cleanest and tends to work best on films or high gloss materials. Heavily sized products do a better job of filling a more porous substrate.
HOT STAMPING DIE The hot stamp die is an engraved plate where the non-printing areas are relieved. It is important that the material used holds as much thermal energy as possible at the surface. Copper alloys excel in this area and are used almost exclusively in rotary applications where dwell times are extremely short. There are two primary methods of engraving hot stamp tooling.
The original method is photoengraving. In this process the image is transferred via a photographic negative. The unwanted metal is then etched away by a strong acid. The process is very similar to printed circuit board production. The advantage of photoengraving is that as the complexity and scale of the image increases the cost remains more or less fixed. The disadvantage is that as image complexity decreases the cost remains more or less fixed. Photoengraving is a high overhead process that excels in producing complex images.
A more recent method of producing hot stamp tooling is CNC engraving. In this process the image is taken in an electronic format and specialized software generates tool paths that remove the unwanted material. The advantage of CNC engraving is that simple images can be produced very efficiently. As the quantity and complexity of the image increases the cost increases proportionately. CNC engraving is a low overhead operation that most efficiently produces less complex images.
HEAT + PRESURE + TIME = FOIL TRANSFER.
Foil is transferred to the substrate when a heated die forces the foil onto the substrate against the anvil. The die must be hot enough to activate the adhesive (sizing) on the back of the roll leaf and adhere it to the substrate. The die also performs the very important function of cutting the foil all around the perimeter of the detail being transferred. Without this cutting action the foil will bridge across any small reverses in the copy.
ROTARY HOT STAMPING The information provided up to this point is general and applies to both rotary and flat bed hot stamping. In rotary hot stamping the time element in our transfer formula becomes an inverse function of press speed. Since the contact point between two rollers is theoretically a line this time function becomes very short. A good point of reference is that at 100 FPM 0.020” of material goes by in one millisecond, it takes about 75-100 millisecond to blink your eye.
This extremely short dwell ti
No matter how you earn a living, one occupational skill you would do well to cultivate is the knack for getting along with the boss; that dispenser of raises and promotions is probably the key person in your working life. In most facilities, it's your boss’s opinion of you that determines your future in the company. A staff person in constant conflict with his/her supervisor, even if he or she is a virtuoso performer on the job can find his/her prospects considerably dimmed. Short of marrying his or her daughter, what can you do to get into the boss’s good graces and stay there? Fortunately, most bosses aren't monsters, so they respond to efforts to improve relationships with their staff members.Here are some suggestions for making yourself more valuable to the man or woman you work for, based upon the observations of managers and job counselors.Help him or her to do his/her job. You can accomplish this by doing your job as best you can - an important piece of advice. It is probably
The final layer in the foil construction is the sizing. This is a heat-activated adhesive that glues the foil image to the substrate. At 1.5-3 microns this layer makes up 50-70% of the transferred product. A thin layer of sizing cuts cleanest and tends to work best on films or high gloss materials. Heavily sized products do a better job of filling a more porous substrate.
HOT STAMPING DIE The hot stamp die is an engraved plate where the non-printing areas are relieved. It is important that the material used holds as much thermal energy as possible at the surface. Copper alloys excel in this area and are used almost exclusively in rotary applications where dwell times are extremely short. There are two primary methods of engraving hot stamp tooling.
The original method is photoengraving. In this process the image is transferred via a photographic negative. The unwanted metal is then etched away by a strong acid. The process is very similar to printed circuit board production. The advantage of photoengraving is that as the complexity and scale of the image increases the cost remains more or less fixed. The disadvantage is that as image complexity decreases the cost remains more or less fixed. Photoengraving is a high overhead process that excels in producing complex images.
A more recent method of producing hot stamp tooling is CNC engraving. In this process the image is taken in an electronic format and specialized software generates tool paths that remove the unwanted material. The advantage of CNC engraving is that simple images can be produced very efficiently. As the quantity and complexity of the image increases the cost increases proportionately. CNC engraving is a low overhead operation that most efficiently produces less complex images.
HEAT + PRESURE + TIME = FOIL TRANSFER.
Foil is transferred to the substrate when a heated die forces the foil onto the substrate against the anvil. The die must be hot enough to activate the adhesive (sizing) on the back of the roll leaf and adhere it to the substrate. The die also performs the very important function of cutting the foil all around the perimeter of the detail being transferred. Without this cutting action the foil will bridge across any small reverses in the copy.
ROTARY HOT STAMPING The information provided up to this point is general and applies to both rotary and flat bed hot stamping. In rotary hot stamping the time element in our transfer formula becomes an inverse function of press speed. Since the contact point between two rollers is theoretically a line this time function becomes very short. A good point of reference is that at 100 FPM 0.020” of material goes by in one millisecond, it takes about 75-100 millisecond to blink your eye.
This extremely short dwell ti
If you have done any research into starting your own business you will know that owning a franchise is the best way to start a business. When you own a franchise you drastically cut down on the chances of failure. Now that you are ready to buy a franchise the next decision to make is to decide what type of franchise is best for you. When evaluating different franchise opportunities make sure to consider your personal skills, talents, and even hobbies. These traits can be valuable tools to help you make the right decision. When you are spending thousands of dollars or more on a new business you want to make sure it is something that you are going to enjoy. Don’t pick a franchise solely based on potential revenue.Food franchises are the most popular style of franchise opportunity. The types of food franchises are many. You can keep it very simple and sell hotdogs from a mobile kiosk or you can open your own fine dining restaurant. There are great opportunities in pizza delivery and hamb
A more recent method of producing hot stamp tooling is CNC engraving. In this process the image is taken in an electronic format and specialized software generates tool paths that remove the unwanted material. The advantage of CNC engraving is that simple images can be produced very efficiently. As the quantity and complexity of the image increases the cost increases proportionately. CNC engraving is a low overhead operation that most efficiently produces less complex images.
HEAT + PRESURE + TIME = FOIL TRANSFER.
Foil is transferred to the substrate when a heated die forces the foil onto the substrate against the anvil. The die must be hot enough to activate the adhesive (sizing) on the back of the roll leaf and adhere it to the substrate. The die also performs the very important function of cutting the foil all around the perimeter of the detail being transferred. Without this cutting action the foil will bridge across any small reverses in the copy.
ROTARY HOT STAMPING The information provided up to this point is general and applies to both rotary and flat bed hot stamping. In rotary hot stamping the time element in our transfer formula becomes an inverse function of press speed. Since the contact point between two rollers is theoretically a line this time function becomes very short. A good point of reference is that at 100 FPM 0.020” of material goes by in one millisecond, it takes about 75-100 millisecond to blink your eye.
This extremely short dwell ti
When presenting a Business Plan for a new Startup Technology Company to a Venture Capitalist you need to understand that they are looking for a one to three year kill. In other words they wish to fund a company that can be sold for 10 times or more their investment in three years.They are not interested in a long-term investments, but rather a short-term three-year maximum turnaround. They will plan on selling their shares or their percentage of the company whether you like it or not. If you are an entrepreneur who has fallen in love with your own idea and wants to do this for the rest of your life then perhaps Venture Capital Cash is not a good idea for you.When presenting your business plan you must also understand that the technology you are wishing to refine and bring to market needs to be 99% complete. They are not interested in research and development funding for anything that will take over five years. It is best to have technology that you have patents for and potential cli
Foil is transferred to the substrate when a heated die forces the foil onto the substrate against the anvil. The die must be hot enough to activate the adhesive (sizing) on the back of the roll leaf and adhere it to the substrate. The die also performs the very important function of cutting the foil all around the perimeter of the detail being transferred. Without this cutting action the foil will bridge across any small reverses in the copy.
ROTARY HOT STAMPING The information provided up to this point is general and applies to both rotary and flat bed hot stamping. In rotary hot stamping the time element in our transfer formula becomes an inverse function of press speed. Since the contact point between two rollers is theoretically a line this time function becomes very short. A good point of reference is that at 100 FPM 0.020” of material goes by in one millisecond, it takes about 75-100 millisecond to blink your eye.
This extremely short dwell time explains why porous materials prove difficult to process rotary. As the top fibers cool the sizing, the foil solidifies on top of the material before it can creep down into the fiber. The dwell time that allows a flat bed system to force the foil down into the substrate also allows heat to move laterally through the film. This causes the foil to release or "bridge" across fine reverse details. Thus, short dwell time is also the reason rotary hot stamping is able to produce a greater level of detail than the best flat bed equipment.
ROTARY HOT STAMP EQUIPMENT For a rotary hot stamping system to operate it must perform two basic functions. First it must maintain the desired temperature of the die. Second it must hold the die securely in position to produce even depth of impression through heavy and light coverage regions of the die.
TEMPERATURE CONTROL Temperature control of rotary hot stamp systems is achieved by one of two methods. Most common is internal electric. This can be used with or without cooling. The second is hot oil. While inherently more accurate, hot oil also adds a dangerous component.
IMPRESSION CONTROL The second task of any rotary hot stamping system is that it maintains an even depth of impression. The main problem with this is that the heated die must also be taken off of impression when the web is stationary. The original hot stamp units used a pneumatic bridge to achieve this. After time the shortcomings of this system became obvious. First, the amount of lift-off was limited by the gearing. This was a particular problem on 32dp gearing where the small teeth limited throw off to approximately 0.030”. Second, any variation in line pressure would affect the impression.
The next generation of impression control utilized a cam over center type mechanism where the die remained stationary and the impression roll rotates up to meet it. This system uses air pressure to make and break the impression but will hold its impression regardless of available air pressure. While this approach was a great improvement it is still limited to webs 10” and less. The problem with going to wider webs is that as solid as the base roll may be, by applying pressure to the bearing blocks rather than die bearers allows to much flexing in the die shaft assembly to achieve good speeds on wider webs.
The key to achieving high speeds on wider webs is in making the hot stamping system follow the same principles of operation as a cutting die. It has been a long time since applying pressure to the bearing blocks in a die cutting operation was an accepted practice. The latest designs have addressed this issue by adding steel bearers to the hot stamp die. With this design the die and anvil are sandwiched between the lower anvil roll and an assist roll where pressure can be set and monitored. With the die locked tightly in the station the anvil is adjusted independently to meet the die.
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