Polypro
Forged Chrome-Moly
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- Material: Forged Chrome-Moly Polypro PTFE Styrofoam
Part #:504747
- A 100% pure PTFE joint sealant used in virtually any gasketing applications. Adhesive backing allows for easy installation and material is soft and flexible so it handles curves and contours.
Installation takes only minutes and removal of the sealant is simple and involves no scraping or grinding. It is sold in continuous lengths so that it can be cut off in various lengths.
Part #:511211
- Tall Cup Foam 16 Oz 16Sl Lid White
Distribution # 12500152
Manufacturer # 16J16
16J16 TALL C CUPS FOAM 16 OZ WHITE Maintain beverages at their optimal temperature longer with Dart® insulated foam cups. Not only do foam cups keep beverages at their proper serving temperature on the inside, they keep hands comfortable on the outside. Hot or cold, insulated foam delivers drinks the way they were meant to be. Ideal for coffee, cappuccino, tea, hot chocolate, hot cider, juice, and soft drinks.
Part #:521251
- Space Saver Cup Foam 12 Oz White 12Jl Lid
Distribution # 12500136
Manufacturer # 12J12
Dart J Cup Hot/Cold Cup Dart 12 oz Hot/Cold J Cup White
Part #:800292
- A 100% pure PTFE joint sealant used in virtually any gasketing applications. Adhesive backing allows for easy installation and material is soft and flexible so it handles curves and contours.
Installation takes only minutes and removal of the sealant is simple and involves no scraping or grinding. It is sold in continuous lengths so that it can be cut off in various lengths.
Part #:800552
- A 100% pure PTFE joint sealant used in virtually any gasketing applications. Adhesive backing allows for easy installation and material is soft and flexible so it handles curves and contours.
Installation takes only minutes and removal of the sealant is simple and involves no scraping or grinding. It is sold in continuous lengths so that it can be cut off in various lengths.
Part #:801552
- A 100% pure PTFE joint sealant used in virtually any gasketing applications. Adhesive backing allows for easy installation and material is soft and flexible so it handles curves and contours.
Installation takes only minutes and removal of the sealant is simple and involves no scraping or grinding. It is sold in continuous lengths so that it can be cut off in various lengths.
Part #:501620
- Nominal Smooth Bore PTFE Hose Non-conductive (Replaces 919-12)
Attributes
Weight
0.17 lb
Break Quantity
0
Optional Package/Box Quantity
1
Material
PTFE
Color
White
Working Pressure
1200 PSI
Temperature Range
-100°F to 450°F (-73°C to 232°C)
Burst Pressure
4800 PSI
Length
1'
Nominal Size
3/4"
Hose Size
dash 12
ID
.625"
$
7.76
FT
Qty:
Part #:500395
- Dart 10 Oz Hot/Cold J Cup White 25 sleeve 1000 case
Manufacturer # 10J10
$
2.69
Qty:
Part #:801544
- Unlike other PTFE fluorocarbon filament packing, SEPCO prelubricates the fibers of the ML2235 to provide a softer, more flexible packing, with improved peripheral speed characteristics and exothermic properties.
No glazing at higher speed applications, inert, lower coefficient of friction, thermal resistance to 500F/260C and high compressive strength.
Part #:800290
- A 100% pure PTFE joint sealant used in virtually any gasketing applications. Adhesive backing allows for easy installation and material is soft and flexible so it handles curves and contours.
Installation takes only minutes and removal of the sealant is simple and involves no scraping or grinding. It is sold in continuous lengths so that it can be cut off in various lengths.
Part #:801543
- Unlike other PTFE fluorocarbon filament packing, SEPCO prelubricates the fibers of the ML2235 to provide a softer, more flexible packing, with improved peripheral speed characteristics and exothermic properties.
No glazing at higher speed applications, inert, lower coefficient of friction, thermal resistance to 500F/260C and high compressive strength.
Part #:801826
- Unlike other PTFE fluorocarbon filament packing, SEPCO prelubricates the fibers of the ML2235 to provide a softer, more flexible packing, with improved peripheral speed characteristics and exothermic properties.
No glazing at higher speed applications, inert, lower coefficient of friction, thermal resistance to 500F/260C and high compressive strength.
Part #:802802
- Unlike other PTFE fluorocarbon filament packing, SEPCO prelubricates the fibers of the ML2235 to provide a softer, more flexible packing, with improved peripheral speed characteristics and exothermic properties.
No glazing at higher speed applications, inert, lower coefficient of friction, thermal resistance to 500F/260C and high compressive strength.
Part #:805001
- Unlike other PTFE fluorocarbon filament packing, SEPCO prelubricates the fibers of the ML2235 to provide a softer, more flexible packing, with improved peripheral speed characteristics and exothermic properties.
No glazing at higher speed applications, inert, lower coefficient of friction, thermal resistance to 500F/260C and high compressive strength.
Part #:805077
- Unlike other PTFE fluorocarbon filament packing, SEPCO prelubricates the fibers of the ML2235 to provide a softer, more flexible packing, with improved peripheral speed characteristics and exothermic properties.
No glazing at higher speed applications, inert, lower coefficient of friction, thermal resistance to 500F/260C and high compressive strength.
Part #:805080
- Unlike other PTFE fluorocarbon filament packing, SEPCO prelubricates the fibers of the ML2235 to provide a softer, more flexible packing, with improved peripheral speed characteristics and exothermic properties.
No glazing at higher speed applications, inert, lower coefficient of friction, thermal resistance to 500F/260C and high compressive strength.
Part #:334-WOC-T16
- True ID Open Pitch Convoluted Hose Non-conductive Attributes
Weight
0.63 lb
Size
1"
Material
PTFE
Color
White
Working Pressure
1000 PSI
Temperature Range
-100°F to 450°F (-73°C to +232°C)
$
26.52
Qty:
Part #:501-D500332
- Inverted Bucket Steam TrapsEnergy efficient because it's so reliable
The inverted bucket is the most reliable steam trap operating principle known. The heart of its simple design is a unique leverage system that multiplies the force provided by the bucket to open the valve against pressure.
Since the bucket is open at the bottom, it resists damage from water hammer, and wear points are heavily reinforced for long life. The inverted bucket has only two moving parts-the valve lever assembly and the bucket. That means no fixed points, no complicated linkage. Nothing to stick, bind or clog.
Conserves energy even in the presence of wear
Armstrong inverted bucket steam traps open and close based on the difference in density between condensate and steam-the inverted bucket principle. They open and close gently, minimizing wear. This simple fact means that inverted buckets are subject to less wear than some other types of traps.
In fact, as an Armstrong inverted bucket trap wears, its tight seal actually improves. The valve and seat of the Armstrong trap provide essentially line contact-resulting in a tight seal because the entire closing force is concentrated on one narrow seating ring.
An Armstrong inverted bucket steam trap continues to operate efficiently with use. Gradual wear slightly increases the diameter of the seat and alters the shape and diameter of the valve. But, as this occurs, a tight seal is still preserved-the ball merely seats itself more deeply.
Corrosion-resistant parts
The stainless steel valve and seat of the Armstrong inverted bucket steam trap are individually ground and lapped together in matched sets. All other working parts are wear- and corrosion-resistant stainless steel.
Venting of air and CO2
The Armstrong inverted bucket provides continuous automatic air and CO2 venting with no cooling lag or threat of air binding.
Operation against back pressure
The Armstrong inverted bucket has excellent performance against back pressure. It has no adverse effect on inverted bucket operation other than to reduce its capacity by the low differential. The bucket simply requires less force to pull the valve open and cycle the trap.
Freedom from dirt problems
Armstrong designed its inverted bucket to be virtually free of dirt problems. The valve and seat are at the top of the trap, far away from the larger particles of dirt, which fall to the bottom. Here, the up-and-down action of the bucket pulverizes them.
Since the valve of an inverted bucket is either fully closed or open, dirt particles pass freely. And the swift flow of condensate from under the bucket's edge creates a unique self-scrubbing action that sweeps dirt out of the trap.
Qty:
Part #:501-D501153
- Inverted Bucket Steam TrapsEnergy efficient because it's so reliable
The inverted bucket is the most reliable steam trap operating principle known. The heart of its simple design is a unique leverage system that multiplies the force provided by the bucket to open the valve against pressure.
Since the bucket is open at the bottom, it resists damage from water hammer, and wear points are heavily reinforced for long life. The inverted bucket has only two moving parts-the valve lever assembly and the bucket. That means no fixed points, no complicated linkage. Nothing to stick, bind or clog.
Conserves energy even in the presence of wear
Armstrong inverted bucket steam traps open and close based on the difference in density between condensate and steam-the inverted bucket principle. They open and close gently, minimizing wear. This simple fact means that inverted buckets are subject to less wear than some other types of traps.
In fact, as an Armstrong inverted bucket trap wears, its tight seal actually improves. The valve and seat of the Armstrong trap provide essentially line contact-resulting in a tight seal because the entire closing force is concentrated on one narrow seating ring.
An Armstrong inverted bucket steam trap continues to operate efficiently with use. Gradual wear slightly increases the diameter of the seat and alters the shape and diameter of the valve. But, as this occurs, a tight seal is still preserved-the ball merely seats itself more deeply.
Corrosion-resistant parts
The stainless steel valve and seat of the Armstrong inverted bucket steam trap are individually ground and lapped together in matched sets. All other working parts are wear- and corrosion-resistant stainless steel.
Venting of air and CO2
The Armstrong inverted bucket provides continuous automatic air and CO2 venting with no cooling lag or threat of air binding.
Operation against back pressure
The Armstrong inverted bucket has excellent performance against back pressure. It has no adverse effect on inverted bucket operation other than to reduce its capacity by the low differential. The bucket simply requires less force to pull the valve open and cycle the trap.
Freedom from dirt problems
Armstrong designed its inverted bucket to be virtually free of dirt problems. The valve and seat are at the top of the trap, far away from the larger particles of dirt, which fall to the bottom. Here, the up-and-down action of the bucket pulverizes them.
Since the valve of an inverted bucket is either fully closed or open, dirt particles pass freely. And the swift flow of condensate from under the bucket's edge creates a unique self-scrubbing action that sweeps dirt out of the trap.
Qty:
Part #:501-D501759
- Inverted Bucket Steam TrapsEnergy efficient because it's so reliable
The inverted bucket is the most reliable steam trap operating principle known. The heart of its simple design is a unique leverage system that multiplies the force provided by the bucket to open the valve against pressure.
Since the bucket is open at the bottom, it resists damage from water hammer, and wear points are heavily reinforced for long life. The inverted bucket has only two moving parts-the valve lever assembly and the bucket. That means no fixed points, no complicated linkage. Nothing to stick, bind or clog.
Conserves energy even in the presence of wear
Armstrong inverted bucket steam traps open and close based on the difference in density between condensate and steam-the inverted bucket principle. They open and close gently, minimizing wear. This simple fact means that inverted buckets are subject to less wear than some other types of traps.
In fact, as an Armstrong inverted bucket trap wears, its tight seal actually improves. The valve and seat of the Armstrong trap provide essentially line contact-resulting in a tight seal because the entire closing force is concentrated on one narrow seating ring.
An Armstrong inverted bucket steam trap continues to operate efficiently with use. Gradual wear slightly increases the diameter of the seat and alters the shape and diameter of the valve. But, as this occurs, a tight seal is still preserved-the ball merely seats itself more deeply.
Corrosion-resistant parts
The stainless steel valve and seat of the Armstrong inverted bucket steam trap are individually ground and lapped together in matched sets. All other working parts are wear- and corrosion-resistant stainless steel.
Venting of air and CO2
The Armstrong inverted bucket provides continuous automatic air and CO2 venting with no cooling lag or threat of air binding.
Operation against back pressure
The Armstrong inverted bucket has excellent performance against back pressure. It has no adverse effect on inverted bucket operation other than to reduce its capacity by the low differential. The bucket simply requires less force to pull the valve open and cycle the trap.
Freedom from dirt problems
Armstrong designed its inverted bucket to be virtually free of dirt problems. The valve and seat are at the top of the trap, far away from the larger particles of dirt, which fall to the bottom. Here, the up-and-down action of the bucket pulverizes them.
Since the valve of an inverted bucket is either fully closed or open, dirt particles pass freely. And the swift flow of condensate from under the bucket's edge creates a unique self-scrubbing action that sweeps dirt out of the trap.
Qty:
Part #:501-D502775
- Inverted Bucket Steam TrapsEnergy efficient because it's so reliable
The inverted bucket is the most reliable steam trap operating principle known. The heart of its simple design is a unique leverage system that multiplies the force provided by the bucket to open the valve against pressure.
Since the bucket is open at the bottom, it resists damage from water hammer, and wear points are heavily reinforced for long life. The inverted bucket has only two moving parts-the valve lever assembly and the bucket. That means no fixed points, no complicated linkage. Nothing to stick, bind or clog.
Conserves energy even in the presence of wear
Armstrong inverted bucket steam traps open and close based on the difference in density between condensate and steam-the inverted bucket principle. They open and close gently, minimizing wear. This simple fact means that inverted buckets are subject to less wear than some other types of traps.
In fact, as an Armstrong inverted bucket trap wears, its tight seal actually improves. The valve and seat of the Armstrong trap provide essentially line contact-resulting in a tight seal because the entire closing force is concentrated on one narrow seating ring.
An Armstrong inverted bucket steam trap continues to operate efficiently with use. Gradual wear slightly increases the diameter of the seat and alters the shape and diameter of the valve. But, as this occurs, a tight seal is still preserved-the ball merely seats itself more deeply.
Corrosion-resistant parts
The stainless steel valve and seat of the Armstrong inverted bucket steam trap are individually ground and lapped together in matched sets. All other working parts are wear- and corrosion-resistant stainless steel.
Venting of air and CO2
The Armstrong inverted bucket provides continuous automatic air and CO2 venting with no cooling lag or threat of air binding.
Operation against back pressure
The Armstrong inverted bucket has excellent performance against back pressure. It has no adverse effect on inverted bucket operation other than to reduce its capacity by the low differential. The bucket simply requires less force to pull the valve open and cycle the trap.
Freedom from dirt problems
Armstrong designed its inverted bucket to be virtually free of dirt problems. The valve and seat are at the top of the trap, far away from the larger particles of dirt, which fall to the bottom. Here, the up-and-down action of the bucket pulverizes them.
Since the valve of an inverted bucket is either fully closed or open, dirt particles pass freely. And the swift flow of condensate from under the bucket's edge creates a unique self-scrubbing action that sweeps dirt out of the trap.
Qty:
Part #:501-D503160
- Inverted Bucket Steam TrapsEnergy efficient because it's so reliable
The inverted bucket is the most reliable steam trap operating principle known. The heart of its simple design is a unique leverage system that multiplies the force provided by the bucket to open the valve against pressure.
Since the bucket is open at the bottom, it resists damage from water hammer, and wear points are heavily reinforced for long life. The inverted bucket has only two moving parts-the valve lever assembly and the bucket. That means no fixed points, no complicated linkage. Nothing to stick, bind or clog.
Conserves energy even in the presence of wear
Armstrong inverted bucket steam traps open and close based on the difference in density between condensate and steam-the inverted bucket principle. They open and close gently, minimizing wear. This simple fact means that inverted buckets are subject to less wear than some other types of traps.
In fact, as an Armstrong inverted bucket trap wears, its tight seal actually improves. The valve and seat of the Armstrong trap provide essentially line contact-resulting in a tight seal because the entire closing force is concentrated on one narrow seating ring.
An Armstrong inverted bucket steam trap continues to operate efficiently with use. Gradual wear slightly increases the diameter of the seat and alters the shape and diameter of the valve. But, as this occurs, a tight seal is still preserved-the ball merely seats itself more deeply.
Corrosion-resistant parts
The stainless steel valve and seat of the Armstrong inverted bucket steam trap are individually ground and lapped together in matched sets. All other working parts are wear- and corrosion-resistant stainless steel.
Venting of air and CO2
The Armstrong inverted bucket provides continuous automatic air and CO2 venting with no cooling lag or threat of air binding.
Operation against back pressure
The Armstrong inverted bucket has excellent performance against back pressure. It has no adverse effect on inverted bucket operation other than to reduce its capacity by the low differential. The bucket simply requires less force to pull the valve open and cycle the trap.
Freedom from dirt problems
Armstrong designed its inverted bucket to be virtually free of dirt problems. The valve and seat are at the top of the trap, far away from the larger particles of dirt, which fall to the bottom. Here, the up-and-down action of the bucket pulverizes them.
Since the valve of an inverted bucket is either fully closed or open, dirt particles pass freely. And the swift flow of condensate from under the bucket's edge creates a unique self-scrubbing action that sweeps dirt out of the trap.
Qty:
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