That is the property of thermoplastics. If they could not be formed into different shapes many many times then nobody would bother to make them.
If you change the slightest angle in any common shape, you create a new shape and since you can change the angles of any shape an infinite amount of times, you can essentially create infinite shapes. Meaning unfortunately, there is no direct answer for your question.
An infinite number of times.
There's an infinite number of answers.
It really depends on the shape. Different shapes have different relationships between perimeter and area. For similar shapes, the perimeter will increase linearly with the diameter, length, or any other linear measure, while the area will increase with the square of any linear measure. For example, if one square has ten times the side-length of another, its perimeter will also be ten times longer; but its area will be 100 times larger.
It is still infinity.If you add an infinite number plus a finite number, you get the same infinite number.If you multiply an infinite number times a finite number, you get the same infinite number.If you raise an infinite number to a finite power, you get the same infinite number.For example, aleph-zero squared is still aleph-zero.If you raise two (or a higher finite number) to an infinite power, you get a larger infinite number. To say it another way, the infinite number must be in the exponent, to get a larger infinity. For example, two to the power aleph-zero is equal to aleph-one; two to the power aleph-one is equal to aleph-two, etc.Read the Wikipedia article on "Aleph number" for more details. http://en.wikipedia.org/wiki/Aleph_numberAlso note that "infinity" has different meanings in different contexts, even if you concentrate only on mathematical meanings (as opposed to philosophical meanings, for example). I therefore suggest you also read articles about "Infinity", for example, at http://en.wikipedia.org/wiki/Infinity
No, alkyd is not a thermoplastic. Alkyds are a type of synthetic resin commonly used in paints and coatings. Thermoplastics are a different category of materials that can be melted and reshaped multiple times.
If you change the slightest angle in any common shape, you create a new shape and since you can change the angles of any shape an infinite amount of times, you can essentially create infinite shapes. Meaning unfortunately, there is no direct answer for your question.
phases
Teflon is a thermoplastic material. This means that it can be melted and reshaped multiple times without undergoing any chemical change.
thermoplastic
Yes, LDPE (low-density polyethylene) is a thermoplastic material. This means it can be melted and reshaped multiple times without undergoing any significant chemical change.
Quartz is not thermoplastic. It is a mineral, primarily composed of silicon dioxide, and does not exhibit thermoplastic properties. Thermoplastics are a type of polymer that can be melted and reshaped multiple times, while quartz is a hard and stable material.
Polythene (regardless of density) is a thermoplastic.
Thermoplastic is a polymer that can remelted and remolded many times.Thermoplastic is a polymer resin based plastic that softens/melts when heated.Thermoset-plastic is a polymer resin based plastic that polymerizes and/or crosslinks when heated, hardening it. If heated more it just chars.
Polyester resin is a thermosetting resin, generally a copolymer
Coplanar lines can intersect an infinite amount of times.
No, HIPS (High-Impact Polystyrene) is a thermoplastic, not a thermosetting plastic. Thermoplastics can be melted and reshaped multiple times, while thermosetting plastics undergo a chemical reaction during curing that makes them rigid and non-meltable.