Building a well-defined chest is a goal for many fitness enthusiasts, but conventional exercises like bench presses and push-ups may not always provide the desired results. To achieve a standout chest, incorporating unconventional techniques into your training can make a significant difference.
These methods are grounded in science and designed to maximise hypertrophy, improve muscle activation, and enhance overall aesthetics. Below are five unusual training tips to help you build a more attractive chest.
1. Focus on Eccentric Overload
Eccentric training, which emphasises the lowering phase of an exercise, has been shown to stimulate greater muscle growth compared to concentric actions. A study published in the Journal of Applied Physiology revealed that eccentric contractions produce more muscle damage, a key driver of hypertrophy, due to the higher tension placed on muscle fibres (Hortobágyi et al., 1996).
To apply this method, use a tempo-based approach with movements such as the bench press or dumbbell fly. Lower the weight slowly for 3-5 seconds while maintaining control. This extended time under tension increases microtrauma in the muscle fibres, leading to enhanced repair and growth.
How to Implement
- Perform eccentric bench presses with a 4-second descent and explosive lift.
- Add resistance bands to your push-ups for a controlled eccentric phase.
- Incorporate negatives by using a heavier load for the eccentric portion, followed by assistance during the concentric phase.
2. Use Pre-Exhaustion Techniques
Pre-exhaustion involves targeting the chest with an isolation exercise, such as dumbbell flyes, before a compound movement like the bench press. This strategy fatigues the chest muscles, ensuring they are the primary drivers during the compound lift.
A study in the Journal of Strength and Conditioning Research found that pre-exhaustion can enhance chest activation, particularly for individuals who tend to overuse their triceps and deltoids during presses (Augustsson et al., 2003). By isolating the pectorals first, you reduce reliance on secondary muscles and maximise chest engagement.
How to Implement
- Begin your workout with 3 sets of dumbbell flyes or cable crossovers at 12-15 reps.
- Transition into compound movements like incline or flat bench presses.
- Maintain proper form to avoid compensatory muscle recruitment.
3. Incorporate Isometric Holds
Isometric training—holding a position without movement—is an effective way to build muscle endurance and improve the mind-muscle connection.
Research published in the European Journal of Applied Physiology demonstrated that isometric exercises increase muscle fibre recruitment, particularly in stabilising muscles (Watanabe et al., 2013). By holding isometric positions during chest exercises, you enhance neuromuscular control and maintain tension in the pectorals.
How to Implement
- Add a 5-10 second isometric hold at the midpoint of a dumbbell fly or bench press.
- Perform wall presses: Push against a wall with maximal effort for 20-30 seconds.
- Use a Smith machine to hold the barbell at a fixed position, just above chest level, for 10 seconds.
4. Train with Unilateral Movements
Unilateral exercises allow you to work one side of the body at a time, helping to address imbalances and improve muscle symmetry.
A study in the Journal of Sports Science and Medicine highlighted that unilateral training activates stabiliser muscles to a greater degree, leading to improved muscle recruitment and growth (Behm et al., 2005). For chest training, unilateral movements also ensure both sides of the pectorals are evenly developed, contributing to a more symmetrical and attractive appearance.
How to Implement
- Perform single-arm dumbbell presses on a flat or incline bench.
- Incorporate single-arm cable crossovers to isolate each side of the chest.
- Use unilateral push-ups, focusing on controlled movements and stability.
5. Vary Angles and Grips
Changing the angle and grip of your chest exercises can target different portions of the pectorals, promoting balanced development.

For example, the upper chest (clavicular head) is best activated with incline movements, while the lower chest (sternal head) responds well to decline angles. Research from the Journal of Strength and Conditioning Research confirms that grip width and bench angle significantly affect muscle activation patterns during pressing movements (Barnett et al., 1995).
How to Implement
- Use an adjustable bench to perform presses at various angles (e.g., 15°, 30°, 45°).
- Experiment with wide, medium, and narrow grips on the barbell or dumbbells.
- Perform decline push-ups or dips to emphasise the lower chest.
Table of Key Takeaways
Tip | Key Implementation |
---|---|
Eccentric Overload | Focus on slow, controlled lowering phases of exercises. |
Pre-Exhaustion Techniques | Perform isolation exercises before compound lifts to maximise chest engagement. |
Isometric Holds | Include static holds during chest exercises to enhance tension and fibre recruitment. |
Unilateral Movements | Use single-arm presses or crossovers to correct imbalances and improve symmetry. |
Vary Angles and Grips | Adjust bench angles and grip widths to target different areas of the chest for balanced development. |
Conclusion
Incorporating these five unconventional training tips can significantly enhance chest development, ensuring both strength and aesthetics. By leveraging science-backed methods such as eccentric overload, pre-exhaustion, and isometric holds, you optimise muscle activation and growth. Unilateral movements and angle variations further ensure symmetry and balanced development. For long-term progress, combine these techniques with consistent effort and proper nutrition.
Bibliography
Augustsson, J., Esko, A., Thomee, R. and Svantesson, U. (2003). Weight training of the quadriceps femoris muscle using concentric, eccentric and isometric contractions. Journal of Strength and Conditioning Research, 17(2), pp.282-285.
Barnett, C., Kippers, V. and Turner, P. (1995). Effects of variations of the bench press exercise on the EMG activity of five shoulder muscles. Journal of Strength and Conditioning Research, 9(4), pp.222-227.
Behm, D.G., Leonard, A.M., Young, W.B., Bonsey, W.A. and MacKinnon, S.N. (2005). Trunk muscle activation during dynamic weight-training exercises and isometric instability activities. Journal of Sports Science and Medicine, 4(1), pp.35-46.
Hortobágyi, T., Hill, J.P., Houmard, J.A., Fraser, D.D., Lambert, N.J. and Israel, R.G. (1996). Adaptive responses to muscle lengthening and shortening in humans. Journal of Applied Physiology, 80(3), pp.765-772.
Watanabe, K., Miyamoto, T., Tanaka, S., Matsushita, T., Fukuda, F. and Kanehisa, H. (2013). Neuromuscular adaptations to unilateral strength training in the lower limb. European Journal of Applied Physiology, 113(6), pp.1507-1515.