ProTapes has equipment to do many types of slitting. When possible wide web slitting is preferred by most customers because of the cost benefits associated with its high volume output. But when is it better to chose a lathe slitter to convert your materials? Below are 5 scenarios where lathe slitting is your best option.

1. Small runs

When converting from jumbo rolls, the efficiency gained for larger jobs on a wide web slitter is great. However, often times, order minimums required for wide web slitting can far exceed the customer’s requirements, and that’s one situation lathe slitting is a great option.

2. Narrow widths

Although a rotary die tool slitting can also be used for widths below 12mm, it requires an upfront investment in an expensive rotary die tool. On the other hand, the lathe slitter produces perfect rolls with no tooling required! This means high quality finished goods with small minimums.

3. Multiple widths within a web

Lathe slitting gives us the opportunity to cut a single web into multiple widths utilizing our programmable PC, meaning the customer can purchase multiple widths within a single log to keep the minimum per size very low.

4. Set up times

Each of our lathe slitters is programmed via a computer and set up is as quick as typing some data. We can also maintain the perfect cut over time by storing the precise “recipe” for your specs in our computer. This means the PC will remember your settings making future slitting more efficient and consistent generating the same quality every time.

5. Multiple core options

ProTapes state-of-the-art fully automated lathe slitters have multiple core options we currently have 1”, 1.5” and 3” inside diameter (ID) mandrels giving the customer multiple options. The change over from one size core ID to another is minutes eliminating long set up times that are associated with the same type change over on a rewind slitter.

Building Cables

Building Cables

they are suitable for power & lighting circuits and building wiring. Also suitable for use as an earth wire the internal wiring of appliances and apparatus.

Essential Guide to Building Wires for Home Safety and Functionality
A safe and functional electrical system is foundational to any modern structure, and "Building Wire And Cable" provide the vital pathways for electricity to travel. These "Building Wires" are also commonly referred to as "House Wiring" and are essential for bringing power to lights, appliances, outlets, and more. Choosing the right "Building Cables" for your home is a critical step for ensuring the safety of the occupants, the efficiency of electricity usage, and the longevity of the electrical system.
In the construction of "House Wiring," several insulated copper conductors, usually encased in a protective jacket, are the norm. The type of material used for the jacket, the conductor size, and the number of conductors define a cable's appropriateness for given applications.
Let`s examine the main components:
Insulation: Wrapping each conductor is a layer of insulation, crucial for preventing electrical leaks and maintaining safety. PVC, known for its cost-effectiveness and resistance to moisture, is widely used, as is THHN insulation, which can handle higher operating temperatures.
Conductors: Copper is typically used as the primary material for conductors in "Building Wire" due to its excellent electrical conductivity and durability.
Jackets: The outer layer of "Building Cables" protects the conductors from damage, moisture, and external conditions. Jackets are often made of PVC for its combination of affordability and resilience; other materials, like nylon, are available for those seeking higher strength and pliability.
Important factors to consider when selecting the appropriate "Building Cables" include:
Circuit Type: "Building Wire" for branch circuits, which power outlets and fixtures, is typically different from feeder circuits that transport power from the main supply to various parts of the house.
Application: "Building Cables" must be chosen according to their ability to carry required currents. This means that wiring for heavy-duty appliances will need thicker conductors.
Location: The installation environment influences the selection of "House Wiring," as some are specifically designed with features for use in damp conditions or outdoor applications.
Wire Gauge: Expressed in AWG , wire gauge affects current-carrying capacity, with larger numbers denoting thinner wires.

Popular "Building Wire" varieties include:
NM-B Cable (Nonmetallic-Sheathed): Suited for indoor use, this cable is adaptable and commonly employed in branch circuitry within protected environments.
THHN/THWN Cable: These cables are designed to resist higher temperatures and are suitable for a multitude of settings, including feeders and branch circuits in both dry or damp areas.
UF Cable (Underground Feeder): Specifically designed for subterranean installation, UF cables are equipped with waterproofing to handle these demanding conditions.
Always allow a certified electrician to execute electrical installations to assure conformity with safety norms and efficiency of installation. The local building codes dictate the specifications and installation techniques, making professional consultation a key element in the safety of your electrical system.

- Standard applied: IEC60227, BS 6004

- U0/U: 450/750V

- Certification: CE

- Flame retardant or fire resistance or Low smoking and Halogen free or other property can be available

Building Cables,House Wiring,Building Wire,Building Wire And Cable

Shenzhen Bendakang Cables Holding Co., Ltd , https://www.bdkcables.com