Best 21 Spring Constants

 

Mason HS-A-510 RubberSteel Spring Hanger Vibration Isolator for Rod Attachment 510lbs Capacity 1 Deflection 510lbsin Spring Constant Red

Mason HS-A-510 Rubber/Steel Spring Hanger Vibration Isolator for Rod Attachment, 510lbs Capacity, 1″ Deflection, 510lbs/in Spring Constant, Red

Mason HS-A-510 Rubber/Steel Spring Hanger Vibration Isolator for Rod Attachment, 510lbs Capacity, 1″ Deflection, 510lbs/in Spring Constant, Red - This was normally located under the top of the box, or later on against the spring cup on top of the spring. 0+, compression 4. Thus, the steel hanger rod would rub the steel cup or the steel hanger box and short circuit the action of the rubber. Centering the spring in the acoustical cup made steel-to-steel contact of the rod and the top steel cup unimportant and put the rubber in the right location on the leaving end of the spring. Spring stability was not clearly understood increased deflection was accomplished by making the springs taller, but not necessarily larger in diameter. 375″ deflection. Spring hangers contained no rubber for high frequencies and the first improvement was the introduction of a rubber washer. When the spring tended to topple, the rod would hit the side of the box and stop. Spring od 1-3/4″, spring height 3-1/8″. Vertical ‘g’ ratings tension 10. Spring hangers followed their own evolution. 3. The springs could not collapse or fall over because the lower hole in the box continued to be conveniently small. When the rubber washer was located under the top of the box or over the steel spring, the design was still extremely poor as there was nothing to keep the rubber washer centered on the steel cup. A steel washer over the rubber washer spread the load to the outside of the steel spring so a cheaper steel cup could be used. Lower rod penetration 4″. Rod extension 2-1/2″. Maximum rod diameter 5/8″. As in the case of mountings, early spring hangers had very stiff, tall, unstable springs and it was not unusual to sell hangers with 0.

 

Mason SLFH-B-65 Steel Unhoused Spring Mount Vibration Isolator 65lbs Capacity 21 Deflection 31lbsin Spring Constant Brown

Mason SLFH-B-65 Steel Unhoused Spring Mount Vibration Isolator, 65lbs Capacity, 2.1″ Deflection, 31lbs/in Spring Constant, Brown

Mason SLFH-B-65 Steel Unhoused Spring Mount Vibration Isolator, 65lbs Capacity, 2.1″ Deflection, 31lbs/in Spring Constant, Brown - Measures 4″ length by 2-3/4″ width. Bracket elevation 5″. Since it is expensive to bolt mountings down, and any bolting procedure tends to bypass the acoustical action of the neoprene pad on the bottom of the mounting, it is strongly recommended that you use the type slf unless the slfh must be used because of elevated installations on steel beams, etc. Bottom of mount thickness 3/8″. 2-3/8″ spring outside diameter. 6″ free and operating height. 2 hole molded non-skid neoprene covered baseplate. 1″ deflection, 31lbs/in spring constant, brown color. Bottom of mount size 7/8″ x 4-1/4″. The slfh series of mounts are identical to the style slf except for having two or four holes in the base to allow for bolting to the structure. Bracket height 4″. 4″ spring free height. Mason height saving bracket is designed for attachment to a flat face across the full width of the bracket. 1/2″ maximum bolt diameter. 65 pounds capacity, 2.

 

Mason HS-X-175 RubberSteel Spring Hanger Vibration Isolator for Rod Attachment 175lbs Capacity 1 Deflection 175lbsin Spring Constant Silver

Mason HS-X-175 Rubber/Steel Spring Hanger Vibration Isolator for Rod Attachment, 175lbs Capacity, 1″ Deflection, 175lbs/in Spring Constant, Silver

Mason HS-X-175 Rubber/Steel Spring Hanger Vibration Isolator for Rod Attachment, 175lbs Capacity, 1″ Deflection, 175lbs/in Spring Constant, Silver - 9. When the spring tended to topple, the rod would hit the side of the box and stop. Thus, the steel hanger rod would rub the steel cup or the steel hanger box and short circuit the action of the rubber. Spring hangers followed their own evolution. As in the case of mountings, early spring hangers had very stiff, tall, unstable springs and it was not unusual to sell hangers with 0. 375″ deflection. A steel washer over the rubber washer spread the load to the outside of the steel spring so a cheaper steel cup could be used. Maximum rod diameter 3/8″. Spring od 1-1/2″, spring height 2-1/2″. This was normally located under the top of the box, or later on against the spring cup on top of the spring. Spring stability was not clearly understood increased deflection was accomplished by making the springs taller, but not necessarily larger in diameter. Lower rod penetration 3-1/2″. Spring hangers contained no rubber for high frequencies and the first improvement was the introduction of a rubber washer. 0+, compression 4. The springs could not collapse or fall over because the lower hole in the box continued to be conveniently small. Rod extension 1-3/4″. Centering the spring in the acoustical cup made steel-to-steel contact of the rod and the top steel cup unimportant and put the rubber in the right location on the leaving end of the spring. Vertical ‘g’ ratings tension 10. When the rubber washer was located under the top of the box or over the steel spring, the design was still extremely poor as there was nothing to keep the rubber washer centered on the steel cup.

 

Mason HS-X-76 RubberSteel Spring Hanger Vibration Isolator for Rod Attachment 76lbs Capacity 102 Deflection 73lbsin Spring Constant Black

Mason HS-X-76 Rubber/Steel Spring Hanger Vibration Isolator for Rod Attachment, 76lbs Capacity, 1.02″ Deflection, 73lbs/in Spring Constant, Black

Mason HS-X-76 Rubber/Steel Spring Hanger Vibration Isolator for Rod Attachment, 76lbs Capacity, 1.02″ Deflection, 73lbs/in Spring Constant, Black - Hanger for suspending equipment, pipe, or duct work from a ceiling to isolate vibration and noise. Arc-welded steel hanger box for strength and durability. Large lower rod entrance protects rubber from contact. Bridge-bearing natural rubber spring cup for low dynamic stiffness to minimize noise and vibration. Heavy-duty steel spring for absorbing shock and supporting loads.

 

Mason SLFH-A-75 Steel Unhoused Spring Mount Vibration Isolator 75lbs Capacity 15 Deflection 50lbsin Spring Constant Orange

Mason SLFH-A-75 Steel Unhoused Spring Mount Vibration Isolator, 75lbs Capacity, 1.5″ Deflection, 50lbs/in Spring Constant, Orange

Mason SLFH-A-75 Steel Unhoused Spring Mount Vibration Isolator, 75lbs Capacity, 1.5″ Deflection, 50lbs/in Spring Constant, Orange - Mason height saving bracket is designed for attachment to a flat face across the full width of the bracket. 1-3/4″ spring outside diameter. Bracket height 2-1/2″. Bottom of mount size 5/8″ x 2-1/2″. Bracket elevation 3-1/4″. Bottom of mount thickness 3/8″. 5″ deflection, 50lbs/in spring constant, orange color. 4-1/4″ free and operating height. 3″ spring free height. The slfh series of mounts are identical to the style slf except for having two or four holes in the base to allow for bolting to the structure. 75 pounds capacity, 1. 2 hole molded non-skid neoprene covered baseplate. 1/4″ maximum bolt diameter. Since it is expensive to bolt mountings down, and any bolting procedure tends to bypass the acoustical action of the neoprene pad on the bottom of the mounting, it is strongly recommended that you use the type slf unless the slfh must be used because of elevated installations on steel beams, etc. Measures 2-1/2″ length by 3″ width.

 

Mason HS-B-750 RubberSteel Spring Hanger Vibration Isolator for Rod Attachment 750lbs Capacity 112 Deflection 670lbsin Spring Constant White

Mason HS-B-750 Rubber/Steel Spring Hanger Vibration Isolator for Rod Attachment, 750lbs Capacity, 1.12″ Deflection, 670lbs/in Spring Constant, White

Mason HS-B-750 Rubber/Steel Spring Hanger Vibration Isolator for Rod Attachment, 750lbs Capacity, 1.12″ Deflection, 670lbs/in Spring Constant, White - Spring hangers followed their own evolution. Lower rod penetration 4-1/4″. Vertical ‘g’ ratings tension 10. Rod extension 2-1/4″. Spring od 2-3/8″, spring height 4″. 375″ deflection. As in the case of mountings, early spring hangers had very stiff, tall, unstable springs and it was not unusual to sell hangers with 0. When the rubber washer was located under the top of the box or over the steel spring, the design was still extremely poor as there was nothing to keep the rubber washer centered on the steel cup. This was normally located under the top of the box, or later on against the spring cup on top of the spring. Maximum rod diameter 3/4″. When the spring tended to topple, the rod would hit the side of the box and stop. 0+, compression 2. Thus, the steel hanger rod would rub the steel cup or the steel hanger box and short circuit the action of the rubber. Spring hangers contained no rubber for high frequencies and the first improvement was the introduction of a rubber washer. Centering the spring in the acoustical cup made steel-to-steel contact of the rod and the top steel cup unimportant and put the rubber in the right location on the leaving end of the spring. The springs could not collapse or fall over because the lower hole in the box continued to be conveniently small. Spring stability was not clearly understood increased deflection was accomplished by making the springs taller, but not necessarily larger in diameter. A steel washer over the rubber washer spread the load to the outside of the steel spring so a cheaper steel cup could be used.

 

Mason HS-A-125 RubberSteel Spring Hanger Vibration Isolator for Rod Attachment 125lbs Capacity 133 Deflection 94lbsin Spring Constant Brown

Mason HS-A-125 Rubber/Steel Spring Hanger Vibration Isolator for Rod Attachment, 125lbs Capacity, 1.33″ Deflection, 94lbs/in Spring Constant, Brown

Mason HS-A-125 Rubber/Steel Spring Hanger Vibration Isolator for Rod Attachment, 125lbs Capacity, 1.33″ Deflection, 94lbs/in Spring Constant, Brown - The springs could not collapse or fall over because the lower hole in the box continued to be conveniently small. 0+, compression 10. Spring od 1-3/4″, spring height 3″. 0+. 375″ deflection. When the spring tended to topple, the rod would hit the side of the box and stop. Vertical ‘g’ ratings tension 10. Spring stability was not clearly understood increased deflection was accomplished by making the springs taller, but not necessarily larger in diameter. Spring hangers followed their own evolution. When the rubber washer was located under the top of the box or over the steel spring, the design was still extremely poor as there was nothing to keep the rubber washer centered on the steel cup. A steel washer over the rubber washer spread the load to the outside of the steel spring so a cheaper steel cup could be used. As in the case of mountings, early spring hangers had very stiff, tall, unstable springs and it was not unusual to sell hangers with 0. Spring hangers contained no rubber for high frequencies and the first improvement was the introduction of a rubber washer. Maximum rod diameter 5/8″. Thus, the steel hanger rod would rub the steel cup or the steel hanger box and short circuit the action of the rubber. Lower rod penetration 4″. Rod extension 2-1/2″. This was normally located under the top of the box, or later on against the spring cup on top of the spring. Centering the spring in the acoustical cup made steel-to-steel contact of the rod and the top steel cup unimportant and put the rubber in the right location on the leaving end of the spring.

 

Mason HS-A-200 RubberSteel Spring Hanger Vibration Isolator for Rod Attachment 200lbs Capacity 115 Deflection 174lbsin Spring Constant Black

Mason HS-A-200 Rubber/Steel Spring Hanger Vibration Isolator for Rod Attachment, 200lbs Capacity, 1.15″ Deflection, 174lbs/in Spring Constant, Black

Mason HS-A-200 Rubber/Steel Spring Hanger Vibration Isolator for Rod Attachment, 200lbs Capacity, 1.15″ Deflection, 174lbs/in Spring Constant, Black - This was normally located under the top of the box, or later on against the spring cup on top of the spring. Maximum rod diameter 5/8″. Spring hangers followed their own evolution. Spring od 1-3/4″, spring height 3″. The springs could not collapse or fall over because the lower hole in the box continued to be conveniently small. When the spring tended to topple, the rod would hit the side of the box and stop. When the rubber washer was located under the top of the box or over the steel spring, the design was still extremely poor as there was nothing to keep the rubber washer centered on the steel cup. Spring hangers contained no rubber for high frequencies and the first improvement was the introduction of a rubber washer. 0+, compression 10. A steel washer over the rubber washer spread the load to the outside of the steel spring so a cheaper steel cup could be used. Thus, the steel hanger rod would rub the steel cup or the steel hanger box and short circuit the action of the rubber. As in the case of mountings, early spring hangers had very stiff, tall, unstable springs and it was not unusual to sell hangers with 0. 375″ deflection. 0+. Rod extension 2-1/2″. Spring stability was not clearly understood increased deflection was accomplished by making the springs taller, but not necessarily larger in diameter. Vertical ‘g’ ratings tension 10. Centering the spring in the acoustical cup made steel-to-steel contact of the rod and the top steel cup unimportant and put the rubber in the right location on the leaving end of the spring. Lower rod penetration 4″.

 

Mason HS-X-210 RubberSteel Spring Hanger Vibration Isolator for Rod Attachment 210lbs Capacity 1 Deflection 210lbsin Spring Constant Blue

Mason HS-X-210 Rubber/Steel Spring Hanger Vibration Isolator for Rod Attachment, 210lbs Capacity, 1″ Deflection, 210lbs/in Spring Constant, Blue

Mason HS-X-210 Rubber/Steel Spring Hanger Vibration Isolator for Rod Attachment, 210lbs Capacity, 1″ Deflection, 210lbs/in Spring Constant, Blue - Large lower rod entrance protects rubber from contact. Hanger for suspending equipment, pipe, or duct work from a ceiling to isolate vibration and noise. Heavy-duty steel spring for absorbing shock and supporting loads. Arc-welded steel hanger box for strength and durability. Bridge-bearing natural rubber spring cup for low dynamic stiffness to minimize noise and vibration.

 

Mason IMF-X-130 Steel Non Adjustable Spring Mount Vibration Isolator 130lbs Capacity 1 Deflection 130lbsin Spring Constant Purple

Mason IMF-X-130 Steel Non Adjustable Spring Mount Vibration Isolator, 130lbs Capacity, 1″ Deflection, 130lbs/in Spring Constant, Purple

Mason IMF-X-130 Steel Non Adjustable Spring Mount Vibration Isolator, 130lbs Capacity, 1″ Deflection, 130lbs/in Spring Constant, Purple - Purple color. 2-13/16″ free height. 1-1/2″ spring od. 130lbs/in spring constant. Epdm or neoprene spring cup. 1″ deflection non-adjustable spring mounts.

 

Spring Constant Apparatus JLab

Spring Constant Apparatus JLab

Spring Constant Apparatus JLab - The upper end of the spring is suspended from chuck nut and lower and is provided with small pointer which moves over a vertical wooden meter scale. All this setup is provided on a heavy metal base and with weights. The apparatus consists of a spiral spring about 25mm in diameter and 10 cm long. The lower end is also provided with hook for carrying weights. Please visit wwwjlabexportcom for bulk inquiries.

 

Mason SLR-A-510 Steel Seismic and Wind Floor Mount Vibration Isolator 510lbs Capacity 1 Deflection 510lbsin Spring Constant 5-18 Height Red

Mason SLR-A-510 Steel Seismic and Wind Floor Mount Vibration Isolator, 510lbs Capacity, 1″ Deflection, 510lbs/in Spring Constant, 5-1/8″ Height, Red

Mason SLR-A-510 Steel Seismic and Wind Floor Mount Vibration Isolator, 510lbs Capacity, 1″ Deflection, 510lbs/in Spring Constant, 5-1/8″ Height, Red - Adjustment bolt turn counter clockwise to load spring and maintain free and operating height. Bolt position can be reversed for anchoring to floor. Cap screw secures height saving bracket (or equipment base) to tapped concentric hole in mounting adjustment bolt. Neoprene vertical limit stops out of contact during normal operation. Neoprene acoustical cup.

 

Mason IMF-A-310 Steel Non Adjustable Spring Mount Vibration Isolator 310lbs Capacity 1 Deflection 310lbsin Spring Constant Yellow

Mason IMF-A-310 Steel Non Adjustable Spring Mount Vibration Isolator, 310lbs Capacity, 1″ Deflection, 310lbs/in Spring Constant, Yellow

Mason IMF-A-310 Steel Non Adjustable Spring Mount Vibration Isolator, 310lbs Capacity, 1″ Deflection, 310lbs/in Spring Constant, Yellow - Mount for supporting lightweight indoor machinery to reduce structurally transmitted noise and vibration. Free-standing device for bolt-free application. Epdm or neoprene spring cups for non-skid surface and minimizing noise and vibration. Heavy-duty steel spring for absorbing shock and supporting loads.

 

Mason SLFH-A-45 Steel Unhoused Spring Mount Vibration Isolator 45lbs Capacity 16 Deflection 28lbsin Spring Constant Blue

Mason SLFH-A-45 Steel Unhoused Spring Mount Vibration Isolator, 45lbs Capacity, 1.6″ Deflection, 28lbs/in Spring Constant, Blue

Mason SLFH-A-45 Steel Unhoused Spring Mount Vibration Isolator, 45lbs Capacity, 1.6″ Deflection, 28lbs/in Spring Constant, Blue - Heavy-duty steel spring for absorbing shock and supporting loads. Two bolt holes on base for rigid mounting. Neoprene acoustical cup and base plate for minimizing noise and vibration and providing a non-skid surface. Mount for supporting machinery to reduce structurally transmitted noise and vibration. Horizontal stiffness of spring is equal or higher than vertical for protection against falling over.

 

Mason HS-A-310 RubberSteel Spring Hanger Vibration Isolator for Rod Attachment 310lbs Capacity 1 Deflection 310lbsin Spring Constant Yellow

Mason HS-A-310 Rubber/Steel Spring Hanger Vibration Isolator for Rod Attachment, 310lbs Capacity, 1″ Deflection, 310lbs/in Spring Constant, Yellow

Mason HS-A-310 Rubber/Steel Spring Hanger Vibration Isolator for Rod Attachment, 310lbs Capacity, 1″ Deflection, 310lbs/in Spring Constant, Yellow - Spring hangers followed their own evolution. Rod extension 2-1/2″. Lower rod penetration 4″. Centering the spring in the acoustical cup made steel-to-steel contact of the rod and the top steel cup unimportant and put the rubber in the right location on the leaving end of the spring. A steel washer over the rubber washer spread the load to the outside of the steel spring so a cheaper steel cup could be used. 0+, compression 7. Maximum rod diameter 5/8″. Spring hangers contained no rubber for high frequencies and the first improvement was the introduction of a rubber washer. 1. Vertical ‘g’ ratings tension 10. This was normally located under the top of the box, or later on against the spring cup on top of the spring. Spring stability was not clearly understood increased deflection was accomplished by making the springs taller, but not necessarily larger in diameter. As in the case of mountings, early spring hangers had very stiff, tall, unstable springs and it was not unusual to sell hangers with 0. Thus, the steel hanger rod would rub the steel cup or the steel hanger box and short circuit the action of the rubber. The springs could not collapse or fall over because the lower hole in the box continued to be conveniently small. 375″ deflection. When the rubber washer was located under the top of the box or over the steel spring, the design was still extremely poor as there was nothing to keep the rubber washer centered on the steel cup. When the spring tended to topple, the rod would hit the side of the box and stop. Spring od 1-3/4″, spring height 3″.

 

Mason SLR-A-625 Steel Seismic and Wind Floor Mount Vibration Isolator 625lbs Capacity 1 Deflection 625lbsin Spring Constant 5-18 Height White

Mason SLR-A-625 Steel Seismic and Wind Floor Mount Vibration Isolator, 625lbs Capacity, 1″ Deflection, 625lbs/in Spring Constant, 5-1/8″ Height, White

Mason SLR-A-625 Steel Seismic and Wind Floor Mount Vibration Isolator, 625lbs Capacity, 1″ Deflection, 625lbs/in Spring Constant, 5-1/8″ Height, White - Adjustment bolt turn counter clockwise to load spring and maintain free and operating height. Neoprene vertical limit stops out of contact during normal operation. Neoprene acoustical cup. Cap screw secures height saving bracket (or equipment base) to tapped concentric hole in mounting adjustment bolt. Bolt position can be reversed for anchoring to floor.

 

Mason HS-A-45 RubberSteel Spring Hanger Vibration Isolator for Rod Attachment 45lbs Capacity 160 Deflection 28lbsin Spring Constant Blue

Mason HS-A-45 Rubber/Steel Spring Hanger Vibration Isolator for Rod Attachment, 45lbs Capacity, 1.60″ Deflection, 28lbs/in Spring Constant, Blue

Mason HS-A-45 Rubber/Steel Spring Hanger Vibration Isolator for Rod Attachment, 45lbs Capacity, 1.60″ Deflection, 28lbs/in Spring Constant, Blue - Bridge-bearing natural rubber spring cup for low dynamic stiffness to minimize noise and vibration. Heavy-duty steel spring for absorbing shock and supporting loads. Hanger for suspending equipment, pipe, or duct work from a ceiling to isolate vibration and noise. Large lower rod entrance protects rubber from contact. Arc-welded steel hanger box for strength and durability.

 

Mason IMF-X-76 Steel Non Adjustable Spring Mount Vibration Isolator 76lbs Capacity 102 Deflection 73lbsin Spring Constant Black

Mason IMF-X-76 Steel Non Adjustable Spring Mount Vibration Isolator, 76lbs Capacity, 1.02″ Deflection, 73lbs/in Spring Constant, Black

Mason IMF-X-76 Steel Non Adjustable Spring Mount Vibration Isolator, 76lbs Capacity, 1.02″ Deflection, 73lbs/in Spring Constant, Black - Free-standing device for bolt-free application. Heavy-duty steel spring for absorbing shock and supporting loads. Mount for supporting lightweight indoor machinery to reduce structurally transmitted noise and vibration. Epdm or neoprene spring cups for non-skid surface and minimizing noise and vibration.

 

Mason IMF-X-113 Steel Non Adjustable Spring Mount Vibration Isolator 113lbs Capacity 1 Deflection 113lbsin Spring Constant Yellow

Mason IMF-X-113 Steel Non Adjustable Spring Mount Vibration Isolator, 113lbs Capacity, 1″ Deflection, 113lbs/in Spring Constant, Yellow

Mason IMF-X-113 Steel Non Adjustable Spring Mount Vibration Isolator, 113lbs Capacity, 1″ Deflection, 113lbs/in Spring Constant, Yellow - Epdm or neoprene spring cups for non-skid surface and minimizing noise and vibration. Free-standing device for bolt-free application. Mount for supporting lightweight indoor machinery to reduce structurally transmitted noise and vibration. Heavy-duty steel spring for absorbing shock and supporting loads.

 

Eisco Labs Stainless Steel Harmonic Motion Spring 7 length Spring Constant 9-95Nm

Eisco Labs Stainless Steel Harmonic Motion Spring, 7″ length, Spring Constant 9-9.5N/m

Eisco Labs Stainless Steel Harmonic Motion Spring, 7″ length, Spring Constant 9-9.5N/m - 6 n/m. The windings of this truncated cone, made of spring brass wire, interfere with each other less than those of a helical spring, making the motion truly sinusoidal. 5 cm) and a spring constant (k) of 9. The spring is 7 inches (18 cm) long with a maximum diameter of 1. Use it to investigate simple harmonic motion or hooke’s law. Eisco labs harmonic motion springthis large spring is ideal for demonstrations or hands on experiments in the physics classroom. The harmonic motion spring’s elongations are closely proportioned to the applied forces, making it easy to use. 4 inches (3.

 

Mason C-B-750 Ductile Iron Housed Spring Floor Mount Vibration Isolator 750lbs Capacity 112 Deflection 670lbsin Spring Constant White

Mason C-B-750 Ductile Iron Housed Spring Floor Mount Vibration Isolator, 750lbs Capacity, 1.12″ Deflection, 670lbs/in Spring Constant, White

Mason C-B-750 Ductile Iron Housed Spring Floor Mount Vibration Isolator, 750lbs Capacity, 1.12″ Deflection, 670lbs/in Spring Constant, White - Top access adjustment bolt turn clockwise to load spring and maintain free and operating height. Free and operating height. Non-skid neoprene acoustical isolation pad. All springs have additional travel to solid equal to 50 percent of the rated deflection. Bolt length is suitable for 1″ maximum equipment base thickness.