Marine Exhaust – ST

The ST Marine Exhaust mounts are designed to suspend exhaust ducts in Marine applications.

UNSPSC Codes: 23153130


The Marine Exhaust – ST mounts are designed to suspend exhaust ducts in Marine applications. Their particular design allows the duct to displace when exposed to thermal expansions and contractions. There are 11 different models to suit hanging loads from 40Kg to 2000Kg.

All the Marine Exhaust – ST mounts are equipped with interlocking metal parts to withstand to high compression and traction loads. This fail-safe feature provides an extra safety for the application.


Type A(mm) B(mm) C(mm) D(mm) E(mm) F(mm) G(mm) H(mm) I(mm) Shore Max. Load(kg) Code
TYPE A 50 325 118 10 50 110 100 M12 45 Sh 75 709101
50 325 118 10 50 110 100 M12 60 Sh 140 709105
50 325 118 10 50 110 100 M12 45 Sh 100 709111
50 325 118 10 50 110 100 M12 60 Sh 180 709115
80 477 130 15 70 120 120 M16 40 Sh 140 709121
80 477 130 15 70 120 120 M16 60 Sh 300 709125
80 477 130 15 70 120 120 M16 60 Sh 500 709131
80 477 130 15 70 120 120 M16 70 Sh 750 709135



Type A(mm) B(mm) C(mm) D(mm) E(mm) F(mm) G(mm) H(mm) I(mm) Shore Max. Load(kg) Code
TYPE B 100 485 115 10 40 175 150 M20 50 65 Sh 1100 709141
100 485 115 10 40 175 150 M20 50 75 Sh 1570 709145



Type A(mm) B(mm) C(mm) D(mm) E(mm) F(mm) G(mm) H(mm) I(mm) Shore Max. Load(kg) Code
TYPE C 100 500 130 12 50 225 200 M30 66 60 Sh 2000 709151
  • Noise levels are reduced dramatically which allows better working conditions for anyone in close proximity to the machine
  • The Donut Spring will provide a nearly constant natural frequency even with changing loads, resulting in a consistent level of vibration isolation
  • Down time is reduced on a machine as the Donut Spring can still perform even when slight failure has occurred meaning that production is not stopped
  • As the spring is made from rubber and fabric it can be more effective and last longer in more corrosive environments
  • There are no moving parts in the Donut Spring so they are maintenance free
  • Size can be an issue when designing a machine so the range of Donut Springs allows a more compact size of spring to carry greater loads

The hollow central part of the Donut Spring can be produced in a number of sizes that allows for a secure fit when attached to a mounting pin. This is essential in a vibration isolation application to ensure the spring remains in the correct location during use.


The rubber core allows the Donut Spring to naturally reduce vibrations. The physical dimensions for this depends on the application and the required force it has to support. The fabric reinforcement is made up of layers of bias material and gives the Donut it’s unique properties and advantages over steel coil springs. This supports the rubber core and allows the spring to support a higher force. The physical properties of the Spring can be altered by the number of layers of fabric and angle that they are plied.

The outer material adds a layer of protection to the Donuts fabric layers. This gives the outer diameter when unloaded and can be altered depending on the application. This layer can also have a logo or brand image attached were requested.

The selection of a Donut Spring is unique to the application, and for known design parameters the ‘DONUT SPRING Selection Guide’ can be used. For applications were a particular spring is unknown, please request a ‘Selection Procedure’ questionnaire from Vibration Solutions, or download from the website.

There are a number of essential design parameters that must be understood before the correct spring is selected. Firstly, an estimation of the maximum and minimum loads that will occur on each spring. The minimum loading can be calculated by knowing the unloaded weight of the machine or screen deck, and dividing by the number of springs required. (For further information contact the OEM or distributor) The maximum loading weight is the unloaded machine weight, plus the weight of material that the machine will carry.
This information can be used along with the selection guide to choose the most suitable Donut Spring. It is recommended to choose a spring that lies mid-range of the maximum and minimum loads. Ideally the spring should not exceed a deflection of 25% free height.
The spring itself can support a load deflection of up to 27.5% of its free height, but the life capacity and natural frequency will be reduced. For a vibration isolation application, if more than one spring meets the loading criteria then choose the spring with the lower natural frequency. This will allow for a better isolation percentage.
The reference code to each Donut Spring refers to the dimensions of the spring, for example; 114.050.152 is a 114mm O.D. with an I.D. of 50mm, and a free height of 152mm.
It is important to take these dimensions, along with the stroke and compressed diameter into account when looking at the design parameters for the spring. This is critical in the installation of the spring where it must have a large enough design envelope to increase in diameter during compression, whilst ensuring the stroke does not exceed the maximum the spring can withstand.


Common Specification example


Unloaded Size

Minimum Loading

Maximum Loading

Donut Spring

Outside Diameter

Inside Diameter

Free Height

Minimum Loading

Compressed Height

Natural Frequency

Maximum Loading

Compressed Height

Natural Frequency





















One key advantage of a Donut Spring is the quick and easy installation in a busy working environment. This can save a company vast amounts of money in comparison to failure of a steel coil spring by drastically reducing the downtime. A Donut Spring uses mounting pins attached to the frame of the machine to locate and maintain the position of the spring during use. The diameter of the pin is equal to the internal diameter of the Donut.

donut-mountThe first step is to correctly choose a Donut Spring from the ‘Selection Procedure’. The mounting plates / pins can then be designed specific to the selected Spring. The depth of the pin will vary with certain Donuts, for further information please contact AB Pneumatics. With the spring ready to be installed, the machine can be raised to a height greater than that of the pins and Donut Spring height combined, and the spring set into position. The frame can be lowered carefully into position, ensuring all springs align vertically. This can sometimes require lubrication (water or silicone spray) to avoid damaging the Donut Spring.

It is essential at this point to check the spring height to ensure that it falls within the specification found on the ‘Individual Spec. Sheets.’ If it does not fall within this range, the wrong spring has been selected.

If the height is too large, too much resonance may be experienced during use, and if the height is too low then the springs have been overloaded and may fail prematurely. The machine should be tested during the start-up and shut-down processes 2/3 times to ensure the springs behave in an expected manner.

Working Temperature

The Donut Springs have a recommended working temperature range of -40°C to +75°C. This value represents the actual rubber spring temperature. Higher forced loads or frequencies past the recommended working conditions can cause this to increase.