Perfect accuracy on training data is usually a sign of a phenomenon called overfitting (https://en.wikipedia.org/wiki/Overfitting) and the model may generalize poorly to unseen data. So, no, probably this alone is not an indication that there is something wrong (you could still be overfitting but it is not possible to tell from the information in your question).
You should check the accuracy of the NN on the validation set (data your network has not seen during training) and judge its generalizability. usually it's an iterative process where you train many networks with different configurations in parallel and see which one performs best on the validation set. Also see cross validation (https://en.wikipedia.org/wiki/Cross-validation_(statistics))
If you have low measurement noise, a model may still not get zero training error. This could be for many reasons including that the model is not flexible enough to capture the true underlying function (which can be a complicated, high-dimensional, non-linear function). You can try increasing the number of hidden layers and nodes but you have to be careful about the same things like overfitting and only judge based on evaluation through cross validation.
You can definitely get a 100% accuracy on training datasets by increasing model complexity but I would be wary of that.