Why I bought a ceramic flat iron: It’s lighter, more durable, and works more like a regular screwdriver

The most common use for a screwdriver is to get rid of a stubborn, old, broken, or otherwise unsightly piece of metal.

It’s a simple, easy fix, and you can usually get away with it, if you don’t have a huge collection of rusty tools.

The problem is that screwdrivers are really slow.

They take time to make, and they take time when you’re using them.

That’s why, in many cases, you’ll need a bigger, heavier tool, like a flat iron.

And because they’re so heavy, they’re very hard to use, and, well, they don’t work very well.

To get around this, manufacturers have developed a variety of designs for screwdrivers.

There are flat heads, which are made of plastic, which work just fine, but can also be sharpened to cut through metal.

There’s also ceramic, which is made of metal, and can be used to sharpen metal.

They’re both pretty heavy, so they work great.

But, like the screwdriver itself, the flat head is only a small part of a screw driver’s design.

Here are the things that make up the rest of the tool, in order of importance.

The flathead screwdriver has a screwhead with an oblong slot that allows it to slide into a socket or other socket.

It also has an outer ring, which sits on top of the screwhead.

A flathead is made by simply adding the flathead to a screw, and inserting it into the slot.

This creates the flat surface that fits inside a socket, and the screw is then tightened down.

Flatheads come in a wide variety of shapes and sizes, and different screwdrivers will have different sizes.

The most popular ones are generally round, flat, and rectangular, but some designs also include a blade-shaped opening in the slot that lets you make a very narrow, flat cut.

Flathead screws also have a slightly different diameter, so you can make the cut you want without using a lot of force.

But this is not the most important design element of the flat-head screw.

The other major design feature of a flathead, which makes up most of the design, is the “slip hole.”

This is a hole at the bottom of the hole, usually on either side of the slot or in the middle of the socket, that you can slide into, and it’s usually very wide.

A screwdriver with a slide hole on its head is generally very sharp, and not very hard, but it won’t make a hole very deep in the socket.

A hole in a screw is usually called a “dead hole,” and you will usually find it at the end of a threaded rod, and at the very bottom of a socket.

Some designs also have other “holes” in the slots, but these don’t actually give a screw any additional cutting power.

The design of the metal on the bottom edge of the blade is called the “head,” and this is the material that gets the sharpest cutting power from the screw.

If the head is smooth, it’s very sharp.

If it’s rough, it won’t cut through as much metal as it would without a screw.

Some screwdrivers also have blades that are flat, like in a regular flat-headed screwdriver.

But those blades are more likely to get stuck in the wood, and will eventually bend.

These are called “slotted” blades, and if you look at them carefully, you can see that they’re shaped like a circle.

This is called a ring.

The bottom of these rings can also have small holes, called “spacers.”

When you put the flat end of the head in the flat slot of a slot, the screw heads are pushed into these little holes, which, in turn, pull the screw blades through the slots and out of the sockets.

You can see how this can cause the screw blade to break, but you can also see how the screw gets stuck in that little slot.

The reason you want to keep the screw head as smooth as possible is that it’s the best way to hold the blade and make the screw cut into the socket without a lot and break the screw or cutting the threads.

But there are also flathead screws with slotted blades, so it’s best to use these as well.

Another important design detail is the head.

This helps the screw get through the metal as well as out of a metal socket.

If you’re working with a threaded shaft, the head also helps to ensure that the screw won’t be stuck in a tight spot.

The size of the opening and the shape of the slots all determine the width of the sliding opening.

A very small opening is easier to open than a large opening, and a larger opening is much easier to get the screw through.

When the flat